Search International and National Patent Collections
Some content of this application is unavailable at the moment.
If this situation persists, please contact us atFeedback&Contact
1. (CA2049303) RESERVATION SYSTEM TERMINAL
Note: Text based on automatic Optical Character Recognition processes. Please use the PDF version for legal matters
RESERVATION SYSTEM TERMINAL BACKGROUND OF THE INVENTION
Field of the Invention
The present invention relates generally to a reservation system for reserving various tickets of transport facilities, hotels, tours, etc. by means of a computer, and more specifically to a reservation system terminal connected to a host computer for integratedly controlling reservation business, in order to transmit operator's instructions to the host computer and to display response data returned from the host computer for the operator.
Description of the Prior Art
Conventionally, the procedure required to acquire a reservation at a reservation system terminal is roughly as follows: (l) the current reservation status is inquired to the host computer to check the presence or absence of vacancy (e.g. unoccupied seats); (2) if unoccupied, a reservation acquisition instruction is transmitted to the host computer; (3) further, some information such as a name, a place where to make contact, etc. are inputted according to the necessity; and finally (4) a reservation record is prepared to complete the reservation procedure. Further, in some simple reservation systems, the reservation procedure can be completed by only the above steps (1) and (2).
In the prior-art reservation system, however, a series of the above-mentioned reservation procedure can be achieved when the operator inputs coded messages in accordance with predetermined formats through a terminal keyboard.
A prior-art flight reservation system now adopted in
Japan Air Line Corporation will be explained in further detail by way o~ example. When the reservation status is inquired, (l) the operator first inputs an instruction code indicative of reservation status reference through a terminal keyboard; (2) a flight section code is inputted; (3) a date code is entered; and (4) a transmit key is depressed, Finally.
For instance, when the reservation status is 5 referred to about the section between Haneda and Osaka on
January 1, a message as r AS HNDOSA 01 JAN is inputted through the keyboard. This message is received by the host computer; the host computer informs 10 the terminal of the current unoccupied status of flight numbers between Haneda and Osaka at that day; and the unoccupied flight number list is displayed on a terminal
CRT image.
With reference to the displayed image, a reservation 15 acquisition procedure is ejected to slight numbers displayed in the list. In this case, similarly all the instructions and information data required for slight reservation such as flight number, class, the number of seats, etc. are inputted as codes in accordance with 20 predetermined formats through the keyboard.
The prior-art reservation system is called entryoriented system, because all the instructions to the host computer are dependent upon the operators' keyboard operation. In addition, since the messages inputted 25 through the keyboard are coded in accordance with predetermined formats, the entry-oriented system mainly involves the following problems: (1) The operability or manipulatability is poor. In more detail, the operator must remember all the 30 instruction codes to the host computer, the input format, and necessary information codes, etc. In addition, complicated instruction codes and input formats are
- increased more and more with diversification o~ the current reservation business. Further, since the prior35 art system was originally developed in U.S.A. therefore the instructions are coded on the basis of
English language, the system is hard to deal with for foreigners. As a result, it is practically impossible for unskilled operators to operate the system, and therefore many hours and higher cost are required to educate and train the operators. (2) Since all the operational procedure is dependent upon the operator's keyboard operation, at least several tens key strokes are required for a single reservation processing and therefore the business efficiency is inevitably low. In addition, there exist other problems in that the operator tends to become fatigued, in particular in eyes, fingers, arms, shoulders, etc. (3) The intelligence capability of the terminal is not sufficiently put to practical use. A device provided with a high intelligence capability such as a personal computer is usually used as the terminal. However, the prior-art terminal is only used as a man-machine interface function between the operator and the host computer, so that it is impossible to store even the response data transmitted from the host computer or the information inputted by the operator. Therefore, since the response data and the input information obtained at the preceding procedure cannot be used again at the succeeding procedure, the operator must repeat the same operation as at the preceding procedure, thus resulting in a lower business efficiency.
To overcome these problems, conventionally some improvements have been made mainly in the terminal operability and practical use o~ intelligence capability as follows: (1) Input guide formats necessary for reservation procedure are provided within the terminal. The operator calls these guides in sequence according to the necessity to input necessary information through the keyboard in accordance with the called guide. (2) A required number of keys at which various information codes are stored are provided for the terminal.
(3) Some input format examples used often are stored in specific keys, and other formats for only items of different contents are modified before inputted to the terminal. (4) A display image is divided into a plurality of areas, and some information required for the succeeding procedure is kept in some areas.
In the above-mentioned improvement, however, since the improvements have been made in relation to the entry10 oriented systems in which all the procedure is dependentupon the keyboard operation, the intelligence capability of the terminal is not sufficiently put into practical use, without basically solving the above-mentioned problems involved in the prior-art reservation system 15 terminal.
SUMMARY OF THE INVENTION
With these problems in mind, therefore, it is the primary object of the present invention to provide a novel object-oriented reservation system by which 20 procedure required to be executed can be simply selected and additionally necessary information can be simply inputted, when the operator has a direct access to or operates a display image by use o~ a pointing device, in order to markedly reduce the work load to the operator, 25 thus basically solving the afore-mentioned problems involved in the prior-art entry-oriented reservation system.
The other object o~ the present invention is to provide a reservation system terminal provided with 30 higher intelligence capability such as multitask function for simultaneously processing a series of reservation procedure, automatic information transfer function for
- automatically transferring necessary information between tasks, multiwindow function for controlling a plurality 35 of images under overlapping conditions, etc., thus making efficient use of the intelligence capability of the terminal.
To achieve the above-mentioned object, the first aspect of the present invention provides a reservation system terminal associated with a host computer for processing reservation status, which comprises: (A) reserving means for forming a reservation image including a plurality of parts for inputting contents related to predetermined reservation items, inquiring a reservation status related to the inputted reservation item data or contents to said host computer, selecting any one of reservation records or objects, and requesting a reservation acquisition related to the selected reservation record or object to said host computer, respectively; (B) displaying means for receiving the reservation images formed by said reserving means, and forming and displaying a display image including the formed reservation image; (C) pointing device means for operating the parts arranged in the image displayed by said displaying means; (D) part operation detecting means for detecting the part operated by said pointing device means; and (E) host-to-terminal communicating means for transmitting various messages to said host computer and receiving response data from said host computer, and wherein said reserving means selectively executes the following steps of, on the basis of part pointing operation effected on the reservation image and detected by said part operation detecting means: (a) displaying the inputted reservation item data or contents on the reservation image; (b) forming a reservation status inquiry message for inquiring a reservation status related to the inputted reservation item contents, transmitting the inquiry message to said host computer via said host-to-terminal communicating means, receiving selectable reservation record or object information transmitted by said host computer via said host-to-terminal communicating means as response data to the transmitted inquiry message, and displaying the selectable reservation record or information list in the reservation image; (c) displaying the selected reservation record or object in the reservation image; and (d) forming a reservation request message for requesting a reservation acquisition related to the selected reservation records or objects, transmitting the formed reservation request message to said host computer via said host-to-terminal communicating means, receiving acquired reservation content or data information transmitted by said host computer via said host-to-terminal communicating device as response data to the reservation acquisition request, and displaying the acquired reservation contents or data in the reservation image.
To achieve the above-mentioned object, the present invention provides a method of operating a terminal computer incorporated in a reservation system terminal associated with a host computer for processing reservation status and provided with a display unit coupled to the terminal computer to display images and with a pointing device also coupled to the terminal computer to point visible parts on the displayed image, comprising the steps
(A) forming a reservation image including a plurality of parts for inputting -contents related to predetermined reservation items, inquiring a reservation status related to the inputted reservation item contents to the host computer, selecting any one of reservation objects, and requesting a reservation acquisition related to the selected reservation object to the host computer, respectively; (B) forming a display image including the formed reservation image, and transmitting the formed display image to the display unit for display; (C) detecting a part operated by the pointing device on the displayed image;
(D) if a part pointing operation for inputting the contents of the reservation item is detected, displaying the inputted reservation item contents on the reservation image; (E) if a part pointing operation for inquiring the reservation status is detected after the inputted reservation item contents have been displayed, forming a reservation status inquiry message for inquiring the reservation status related to the inputted reservation item contents; (F) transmitting the formed reservation status inquiry message to the host computer; (G)- receiving reservation status information indicative of selectable reservation object transmitted from the host computer in response to the inquiry message; (H) forming a list indicative of the selectable reservation object on the basis of the reservation status information, and displaying the formed list on the reservation image in relation to a part for selecting the reservation object; (I) if a part pointing operation for selecting the reservation object is detected after the reservation object list has been displayed, displaying the reservation object selected by the part pointing operation on the reservation image; (J) if a part pointing operation for requesting the reservation acquisition is detected after the selected reservation object has been displayed, forming a reservation request message for requesting a reservation acquisition related to the selected reservation object; (K) transmitting the formed reservation request message to the host computer; (L) receiving reservation acquisition information indicative of the contents of acquired refer.vation transmitted from the host computer in response to the reservation request message; and
(M) displaying the acquired reservation contents on the reservation image on the basis of the acquired reservation information.
Accordingly, in a further aspect the present invention resides in a method of operating a terminal computer incorporated in a reservation system terminal associated with a host computer storing reservation records for processing reservation status and provided with a display unit coupled to the terminal computer to display images and with a pointing device also coupled to the terminal computer to point visible parts on the displayed image, comprising the steps of: (A) forming a reservation image including a plurality of parts for inputting contents related to predetermined reservation items, inquiring a reservation status related to the inputted reservation item data to the host computer, selecting any one of reservation records, and requesting a reservation acquisition related to the selected reservation record to the host computer, respectively; (B) forming a reservation item selection image including parts for selecting one data element from a plurality of selectable data elements previously determined with respect to at least one specific item among the reservation items; (C) forming a multidisplay image including the reservation image and the reservation item selection image, and transmitting the formed multidisplay image to the display unit for display; (D) detecting a part operated by the pointing device on the display image; (E) if a part pointing operation is detected on the reservation item selection image, transmitting one data element selected by the part pointing operation to the reservation image as the data inputted in relation to the specific item, and displaying the transmitted data element on the reservation image;
(F) if a part pointing operation for inputting the data of the reservation item is detected, displaying the inputted reservation item data on the reservation image; (G) if a part pointing operation for inquiring the reservation status is detected after the inputted reservation item data have been displayed, forming a reservation status inquiry message for inquiring the reservation status related to the inputted reservation item data; (H) transmitting the formed reservation status inquiry message to the host computer; (I) receiving reservation status information indicative of selectable reservation record transmitted from the host computer in response to the inquiry message; (J) forming a list indicative of the selectable reservation record on the basis of the reservation status information, and displaying the formed list related to the part for selecting the reservation record on the reservation image; (K) if a part pointing operation for selecting the reservation record is detected after the reservation record list has been displayed, displaying the reservation record selected by the part pointing operation on the reservation image; (L) if a part pointing operation for requesting the reservation acquisition is detected after the selected reservation record has been displayed, forming a reservation request message for requesting a reservation acquisition related to the selected reservation record; (M) transmitting the formed reservation request message to the host computer; (N) receiving reservation acquisition information indicative of the data of acquired reservation transmitted from the host computer in response to the reservation request message; and
(O) displaying the acquired reservation data on the reservation image on the basis of the acquired reservation information.
In another aspect, the present invention resides in a reservation system terminal associated with a host computer storing reservation records for processing reservation status, which comprises: (A) reserving means (35, 41, 43, 45, 47) for forming a reservation image including a plurality of parts for inputting data related to predetermined reservation items, inquiring a reservation status related to the inputted reservation item data to said host computer, selecting any one of reservation records, and requesting a reservation acquisition related to the selected reservation record to said host computer, respectively; (B) reservation item selecting means (37, 39) for forming a reservation item selection image including a plurality of parts for selecting any one of a plurality of predetermined selectable data related to at least one specific item among the reservation items; (C) displaying means (119, 121, 17) for receiving the reservation image formed by said reserving means and the reservation item selection image formed by said reservation item selecting means, and forming and displaying a display image including these two images arranged in overlapping condition; (D) pointing device means (30) for operating the parts arranged in the display image displayed by said displaying means; (E) part operation detecting means (31, 33) for detecting the part operated by said pointing device means; (F) inter-teL ;nAl communicating means (123) connected between said reserving means and said reservation item selecting means, for allowing communications therebetween; (G) host-to-terminal communicating means (125) for transmitting various messages to said host computer and receiving response data from said host computer; and (H) said reservation item selecting means selecting one of the selectable data on the basis of the part operation detected by said part operation detecting means in the reservation item selection image, and transmitting the selected data to said reserving means via said interterminal communicating means as inputted data related to the specific item, and wherein said reserving means selectively executes the following steps of, on the basis of part pointing operation effected on the reservation image and detected by said part operation detecting means: (a) displaying the inputted reservation item data on the reservation image; (b) forming a reservation status inquiry message for inquiring a reservation status related to the inputted reservation item data, transmitting the inquiry message to said host computer via said host-to-terminal communicating means, receiving selectable reservation record information transmitted by said host computer via said host-to-tel ;nAl communicating means as response data to the transmitted inquiry message, and displaying the selectable reservation record information list in the reservation image; (c) displaying the selected reservation record in the reservation image; and (d) forming a reservation request message for requesting a reservation acquisition related to the selected reservation records, transmitting the formed reservation request message to said host computer via said host-to-terminal communicating means, receiving acquired reservation content information transmitted by said host computer via said host-to-terminal communicating device as response data to the reservation acquisition request, and displaying the acquired reservation data in the reservation image.
In another aspect the intern .llih~al communicating means may, for f~Y~mple, comprise an inter-process co.. - ~ tion block.
BRIEF DESCRIPTION OF l~ DRAWINGS
Fig. 1 is a block ~ gram showing a harlw;~ configuration of an embodiment of the reservation system according to the present invention;
Figs. 2A and B (shown as 2B I and 2B II) are functional block rli~gr~me of the embodiment shown in Fig l;
Fig. 3 is an illustration showing a flight number reservation image;
Fig. 4 is an illustration shown a date ~leei~n~tiQn image;
Fig. S is an illustration showing a domestic city de-ignition image;
Fig. 6 is an illustration showing an ink )null city designation image;
Fig. 7 is an illustration showing a reservation edit image;
Fig. 8 is an illustration showing a previous seat de-eign~hcn image;
Fig. 9 is an illustration showing a seat chart image;
Fig. 10 is an illustration showing a reservation record reference image;
Fig. 11 is an illllet~til n showing a hotel reservation image;
Fig. 12 is an illustration showing a tour reservation image;
Fig. 13 is an illlletr~ti<)n showing a motion picture display image;
Figs. 14A to E are illustrations showing menu images;
Fig. 15 is a fluwchalL for ~eeiet~nce in eYrl~ining the r~ Lion edit process in the initial startup con-tition;
Fig. 16 is a flowchart for assistance in explaining the menu control process when "Display management" is clicked on the menu image;
Figs. 17A to C are flowcharts for assistance in explaining the flight number reservation process;
Fig. 18 is a flowchart for assistance in explaining the date designation process when a date designation image is opened on a flight number reservation image;
Figs. T9A and B are flowcharts for assistance in explaining the place name/area designation process when a domestic city designation image is opened on the flight number reservation image;
Figs. 20A and B are flowcharts for assistance in explaining the place name/area designation process when an international city designation image is opened on the flight number reservation image;
Figs. 21A to G are flowcharts for assistance in explaining the reservation edit process after the reservation has been completed;
Figs. 22A and B are flowcharts for assistance in explaining the previous seat designation process;
Figs. 23A and B are flowcharts for assistance in explaining the seat chart process;
Figs. 2~A and B are flowcharts for assistance in explaining the reservation record reference process when a flight number reservation record is referred to;
Figs. 25A to C are flowcharts for assistance in explaining the hotel reservation process;
Figs. 26A to C are flowcharts for assistance in explaining the tour reservation process;
Figs. 27A and B are flowcharts for assistance in explaining the place name/area designation process when the international city designation image is opened on a tour reservation image; and
Fig. 28 is a flowchart for assistance in explaining the motion picture display process.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Fig. 1 is a block diagram showing a hardware configuration of a preferred embodiment of the reservation terminal according to the present invention. A terminal (device) 1 is a personal computer in practice, which is composed of a CPU 3, a RAM 5, a ROM 7 for loading a system program, and I/O ports 9 for connecting various peripheral units such as a hard disc unit 11 for loading application programs, a floppy disk unit 13 for loading optional application programs, an AV (audio/visual) unit 15 (e.g. an optical disk deck or video deck), a CRT 17 for displaying images, a MODEM 21 for communicating with a host computer 19 via communication lines, a pointing device 30 such as an electronic pen 25, a mouse 27, etc., and a keyboard 29 for inputting various information not inputted through the pointing device.
Further, it is preferable that the operation system (OS) loaded in the terminal device 1 satisfies the following requirements: (1) Multiwindow and multitask processing are both enabled at real time. (2) Operability is excellent and the operating method is st~n~dized. (3) Information signals can be inputted mainly through pointing devices. (4) Processing speed is high. (5) Many languages must be processed. (6) Data, software and hardware are compatible with those of many makers or manufacturers. 7) Software is high in development efficiency. operation systems such as UNIX, OS/2W and BTRONW seem to satisfy the above requirements. However, BIRON (Business-The Realtime Operating System Nucleus) can be considered as being optimum because the above requirements (1), (2), (5) and (6) can be perfectly satisfied.
Figs. 2(A) and (B) are functional block diagrams showing an integrated reservation system terminal for reserving flight numbers, hotels and tours by way of example, which is configured as shown in Fig. 1. 5With reference to these diagrams, an operator can manipulate the terminal with pointing devices (PD) such as the electronic pen 25, the mouse 27, and the keyboard 29. The major operation can be executed by use o~ the PD 30; however, some operation such as proper noun (name, 10 place where to make contact, etc.) information entry is executed through the keyboard 29, because these information is difficult to input through the PD 30. By use of the PD 30, the cursor position is movable on an image displayed on the CRT 17. A number of picture images can be displayed on the CRT 17, on each of which various parts (referred to as buttons, switch selectors, scroll selectors, etc.) and tag (or index) window images (representative of real window images) are arranged as described later in further detail. Each function corresponding to each part is previously determined.
When the operator moves the cursor to any given tag image or part by operating the pointing device 30 and further the PD 30 is clicked once in the case of parts and twice in the case of tag images, absolute coordinates of the 25 current cursor position on the image are detected by a position detection block 31, and further the functions corresponding to each part or tag image on which the cursor is located are discriminated on the basis of the detected absolute coordinates by a function 30 discrimination block 33. Here, the operation that the cursor is located-on a tag image and then the PD 30 is clicked twice is referred to as "a tag image is double clicked or double tag image clicks" and the operation that the cursor is located on a part and then the PD 30 35 is clicked once is referred to as "a part is (once) clicked or single part click", hereinafter.
In response to the discriminated result of the function discrimination block 33, an image control block 119 controls the display on the CRT 17. In more detail, the image control block 119 is provided with multiwindow processing function such that the arrangement of various image windows are controlled on the basis of the abovementioned discriminated result in order to multidisplay a plurality of images given through various processing as described later. In practice, since a plurality of window images are arranged in overlapping condition, although the outermost image arranged in front of the overlapped images (referred to as in-front image or displays) can be seen all over the image, only a part offset from the in-front image can be seen in the case of other inner images arranged in back (referred to as inback images or displays). Therefore, the operator can operate or have an access to tag images and parts displayed in a complete image or in a visible partial portion of in-back images by use of the PD 30. Here, the tag image has an index function in process. When double tag image clicks are discriminated, the image control block 119 arranges a process window corresponding to the discriminated tag image as an in-front image. (Further, if the corresponding process is not yet started, the process is simultaneously started.) When a visible part of the in-back image is clicked, the image control block 119 displays the clicked image as the in-front image.
An image display block 121 is of bit map graphic mechanism for multidisplaying a plurality o~ images on the CRT 17 in accordance with the window arrangement order determined by the image control block 119.
Within the AV device 15, there are arranged optical disks or video tapes for recording color movies (motion pictures) to introduce hotels or tours. As described later, when a tag image o~ the movie display process is double clicked, the image control block 119 activates the
AV device 15 to playback the designated hotel or tour movie and further transmit information for controlling the movie display to the image display block 121, so that the playbacked movie can be displayed in the outermost window as an in-front image.
In the terminal device provided with multiwindow and multitask processing functions, a plurality of independent processes can be executed in parallel fashion. These processes are flight number reservation process, date designation process 37, place name/area 10 designation process, reservation edition process, previous seat designation process, seat chart display process, reservation record reference process, hotel reservation process, motion picture display process, tour reservation process, etc. Each of these processes is 15 provided with a function for forming each specific image.
These images are multiwindow processed by the image control block 119 and then multidisplayed on the CRT ~7.
The function is provided such that information inputted by the operator or from the host computer can be 20 transmitted to other process, where necessary. This function is shown in Fig. 2(A) as an inter-process communication block 123, and can be realized by storing information required for plural processes in a memory area used in common for these processes. The inter25 process communication block 123 is functioning at alltimes as the background operation of each process.
In addition to the above-mentioned processes, there are provided host-to-terminal communication process 125, menu control process 32, color arrangement control 30 process 3g, etc.
The host-to-terminal communication process 125 transmits messages in the various processes to the host
- computer 19 and returns the related response data from the host computer 19 to the process. In other words, 35 this process enables normal communications between the terminal 1 and the host computer 19. This host-toterminal communication process 125 always exists as an independent process in the background of the various process, which is operated when the independent process transmits messages to the host computer 19.
The menu control process 32 is started when a menu button (not shown) provided for the PD 30 is depressed.
This process 32 transmits a menu image as described later to the image control block 119 so that the image control block 119 displays the menu image as the in-front image.
Since a number of function items are displayed on this menu image, any required functions can be selected by the clicking operation.
The color arrangement control process 34 is started when "color arrange" is clicked on the menu image, to control the image control block 119 so that the colors of the in-front image, background and parts can be changed.
When the color arrangement is appropriately selected, it is possible to divert or relax the operator himself or herself.
The above-mentioned process will be described hereinbelow in detail, respectively with reference to
Figs. 3 to 14.
The flight number reservation process is the one for performing the reservation procedure o~ flight numbers, and provided with various functions shown by a flight number reservation image display block 35, a reservation status inquiry message transmit/receive block 41, a reservation status display block 43, a reservation message transmit/receive block 45, and a reservation result display block 47.
The flight number reservation image display block 35 forms a flight number reservation image as shown in Fig. 3 and sends the image to the image control block 119. At the header position of this flight number reservation image, a pictogram 131 (referred to as "~light number reservation pictogram") is arranged. When the double clicks of this flight number reservation pictogram 131 is discriminated, the flight number reservation process 35 is suspended, and the slight number reservation image window is deleted by the image control block 119. The flight number reservation image includes three tag images o~ a domestic city designation tag image 133, an international city designation tag image 135 and a date designation tag image 137. In general, a tag image has an index function for representing a process, as already explained. When a pictogram within a tag image is double clicked (referred to as "a tag image is double clicked"), the process corresponding to the tag image is started and the corresponding image is displayed in front.
Therefore, when the date designation tag image 137 is double clicked, the date designation process 37 is started, so that a date designation image as shown in
Fig. 4 is sent to the image control block 119 to display the date designation image in front. When the domestic city designation tag image 133 or the international city designation tag image 135 is double clicked, the place name/area designation process 39 is started and a domestic city designation image as shown in Fig. 5 or an international city designation image as shown in Fig. 6 is sent to the image control block 119 to display the domestic city designation image or the international city designation image in front.
In the date designation process 37, a date can be designated on the date designation image. In the place name/area designation process 39, a section between the departure and the arrival can be designated on the domestic or international city designation image. The date and section designated at these processes are automatically transmitted to the slight number image display block 35 via the inter-process communication
- block 123. On the slight number reservation image as shown in Fig. 3, there are arranged date boxes 139, 141 and 143 in which a date is displayed and section boxes 145 and 147 in which a slight section is displayed.
Further, a box indicates generally a part in which an input date (letter or numeral) is displayed. In these date boxes 139, 141 and 143, the today's date is initially displayed in default of data. However, when a desired date is given via the inter-process communication block 123, the designated date is displayed in these boxes. Further, a designated flight section given via the inter-process communication block 123 is displayed in the departure and arrival boxes 145 and 147. Further, a succeeding day button 149 and a preceding day button 151 are additionally arranged. Here, the button generally indicates a part for requesting a predetermined operation at the process. When the succeeding day button 149 or the preceding day button 151 is clicked, a date displayed in the date boxes 139, 141 and 143 is changed to a succeeding or preceding day. Therefore, when a date close to today can be displayed by using the succeeding button 149 and the preceding button 151 without dependence upon the date designation image process 37.
Further, a succeeding- flight number button 153 is 20 provided for the flight section. Therefore, when this button 153 is clicked, the two displays in the departure box 145 and the arrival box 147 are reversed, so that this operation is convenient when going and returning flight numbers are reserved in sequence.
After the date a ~ section have been designated, when a transmit button 155 is clicked, the reservation status inquiry message t~ansmit/receive block 41 forms a reservation status inquiry message of the designated date and section and sends it to the host-to-terminal communication process 125. This host-to-terminal communication process 125 transmits this message to the host computer 19. In response to this reservation status
- inquiry message, the hOSt computer 19 returns the reservation status data-indiCatiVe of vacant seat flight 35 numbers to the host-to-terminal communication process 125, and then to the reservation status inquiry message transmit/receive block 41- After having determined the received data to be correct data, the reservation status inquiry message transmit/receive block 41 gives the received data to a reservation status display block 43.
After having transformed the reservation status data into an understandable language (e.g. Japanese language), the reservation status display block 43 gives the transformed data language to a reservation image block 35. Thereupon, a list of vacant seat flight numbers is displayed in Japanese language in a reservation status scroll selector 171 in the flight number reservation image. The reservation status data sent from the host computer 19 at a time usually correspond to those written on a single page o~ the reservation status scroll selector 171. Therefore, there exists the case where it is impossible to transmit all the data indicative of all the vacant seat slight numbers at a time. In this case, a succeeding page button 159 in the flight number reservation image is clicked. Then, the remaining data transmit request is given to the host computer 19 in the same route as described above, so that reservation status data on the succeeding page can be transmitted from the host computer 19. In general, the scroll selector displays a list o~ letter data. This list can be scrolled by moving the PD 30 along bars displayed on the right side of the image. Further, when one data in the list is clicked, the clicked data can be inputted.
Therefore, whenever the reservation status scroll selector 17 is scrolled, the list not seen on the succeeding page becomes visible. Further, when one o~ the vacant seat slight number on the list is clicked, the clicked flight number is designated as a reserved object.
In this connection, where a slight number required to be reserved is determined at the beginning, it is unnecessary to inquire the reservation status. In this case, i~ the slight number designation button 161 is clicked, since the slight number box 163 is displayed.
When a slight number code is inputted through the keyboard 29, the flight number is displayed in the flight number box163, so that the slight number designation can be completed.
In the flight number reservation image, there are arranged a class switch selector 154 for selecting a boarding class and a seat number switch selector 155 for selecting the number of seats. In general, in the switch selector, a plurality of switches are arranged so as to correspond to a plurality of data to be selected.
Therefore, a switch is clicked, a data corresponding to the clicked-switch can be designated. "Y" is initially designated in the class switch selector 154 in default, and "1" is initially designated in the seat number switch selector 155 in default. However, when another switch is clicked, another class or another number o~ seats can be designated. After designated, the switch of the designated class or the number of seats is displayed in color different for other non-designated switches.
Further, when "other" is designated in the class switch selector 154 , a class input box 167 appears. Here, when any given class code is inputted through the keyboard 29, the inputted class code is displayed in the class input box 162, so that any given class can be designated.
Further, in the flight number reservation image, there are provided an ARNT button 165 and an OPEN button 167 for designating specific reservation modes. When the
ARNT button 165 is clicked, ARNT reservation can be designated. When the OPEN button 167 is clicked, a company code input box 169 appears. In this case, when 30 any given airline (i.e. aviation company) code is inputted through the keyboard 29, the inputted airline code is displayed in the company code input box 169, so that open reservation for the displayed airline can be designated.
As described above, after details o~ the date, section, class, the number of seats, etc. have been designated, when the transmit button 156 is clicked, a message panel (not shown) for confirming whether the flight number reservation is required or not on the flight number reservation image is displayed in front.
Therefore, when the confirmation button in this panel is clicked, the reservation message transmit/receive block 45 forms a message for reserving the designated details and sends the formed message to the host-to-terminal communication process 125 to transmit the formed message to the host computer 19. When a data indicative of reservation acquisition is returned from the host computer 19, this data is sent to the reservation message transmit/receive block 45 via the host-to-terminal communication process 125. After checked that the received data is not an erroneous data, the reservation 15 message transmit/receive block 45 transmits the data to the reservation result display block 47.
The reservation result display block 47 transmits the analyzed result of the received data, that is, the acquired reservation contents to a reservation edition image display block 51 via the inter-process communication block 123, and simultaneously displays a reservation acquisition and a succeeding operation instruction in Japanese, for instance in the message box 172 on the slight number reservation image.
Further, an interrupt button 157 is provided on the flight number reservation image. When this interrupt button 157 is clicked, all the processing so far executed are all disregarded; all the data display is deleted on the image; and an interrupt message is transmitted to the 30 host computer 19 via the host-to-terminal communication process 125. In response to the interrupt message, the host computer 19 deletes the reservation acquired by the processing already executed up to now.
The date designation process 37 will be described in 35 detail hereinbelow. This process 37 forms the date designation image as shown in Fig. 4 and sends it to the image control block 119. The size of this date designation image window is determined a little smaller than that of the flight number reservation image shown in
Fig. 3.
In the date designation image, there are provided a calendar switch selector 173 representative of the current month and a calendar switch selector 175 representative o~ the next month. When either one of the calendar switch selectors 173 and 175 is clicked, the date data corresponding to the clicked switch are sent to the flight number reservation image display block 35 via the inter-process communication block 123, and displayed in the date boxes on the flight number reservation image in the same way as described already.
In the date designation image, there are arranged a date designation pictogram 177 for deleting the date designation image (the date designation process 37 is interrupted), a flight number reservation tag image 179 for displaying the flight number reservation image in front, a domestic city designation tag image 181 for displaying the domestic city designation image in front, an international city designation tag image 183 for displaying the international city designation image in front, and an interrupt button 185 for interrupting all the above-mentioned designations.
The place name/area designation process 39 will be described hereinbelow in detail.
This process 39 forms the domestic city designation image as shown in Fig. 5 and the international city designation image as shown in Fig. 6, and sends these images to the image control block 19. The size o~ each of these domestic and international city designation images is also determined a little smaller than that of the slight number reservation image as shown in Fig. 3.
In the domestic city designation image as shown in
Fig. 5, there are provided main airport buttons 187 to 207 arranged on a domestic map, an airport scroll selector 209 representative of all the domestic airport lists, a departure/arrival switch selector 211 for selecting a departure airport or an arrival airport, and departure and arrival boxes 213 and 214 for displaying departure and arrival airport, respectively. After a departure or arrival airport has been selected by the switch selector 211, when any one of the main airport buttons 187 to 207 or any one of the airport names in the scroll selector 209 is clicked, the airport name is displayed in the departure box 213 or the arrival box 214. Simultaneously the airport data are sent to the flight number reservation image display block 35 via the inter-process communication block 123 to display the airport data in the departure box 145 or the arrival box 147 in the flight number reservation image. Further, when a code display button 215 is clicked, an airport name displayed in each box is changed into a code display composed of three alphabetic letters.
Further, in the domestic city designation image, there are provided a domestic city designation pictogram 217 for deleting the domestic city designation image, a flight number reservation tag image 219 for displaying the flight number reservation image in front, an international city designation tag image 220 for displaying the international city designation image in front, a date designation tag image 221 for displaying the date designation image in front, and an interrupt button 223 for transmitting an interrupt message.
In the international city designation image as shown in Fig. 6, there are provided scroll selectors 223 to 229 for displaying the essential city/international airport lists- classified according to areal groups in the world, a switch selector 231 for selecting one of departure and
- arrival r and boxes 233 and 235 for displaying a departure place name and an arrival place name, respectively. The scroll selectors 223 to 229 are used to designate flight sections in the reservation of international flight numbers or in the designation of cities for tour reservation. Further, when one o~ the scroll selectors 223 to 229 is scrolled, another area list including
Hawaii, forth America, South America, etc. (not shown) can be displayed. This area list is used to designate areas instead of cities when tours are reserved.
Additionally, in the international city designation image, there are provided an international city designation pictogram 237, a slight number reservation tag image 239, a domestic city designation tag image 241, a date designation tag image 243, an interrupt button 245 and a code display button 247. The detailed description o~ the functions of these parts is omitted herein, because o~ substantially the same as the similar parts provided in other images.
Further, as described later, the date designation image, the domestic city designation image and the international city designation image can be used when hotels or tours are reserved or when the reservation record is required, in addition to the flight number reservation. In these cases r data representative o~ dates, sections, cities, etc. are given to a reservation record reference image display block 71, a hotel reservation image display block 87, a tour reservation image display block 103, etc. via the inter-process communication block 123 to display these data in predetermined boxes, respectively.
Reservation edition process will be described hereinbelow. In this process, information about passengers who acquired reservations such as names, places where to make contact, etc. are inputted to write out change, add, and delete these reservation records.
This reservation edition process includes various
- functions represented by a reservation edition image display block 51, a reservation item input/output block 53, a reservation record preparation message transmit/receive block 55, and a reservation record display block 57. Further, at the initial conditions after the terminal has been started, only the reservation edition process is automatically started, and the other processes can be started when each tag image is clicked on the reservation edition image as explained below.
The reservation edition image display block 51 forms a reservation edition image as shown in Fig. 7 and sends it to the image control block 119. This reservation edition image includes a flight number reservation tag image 251, a hotel reservation tag image 253, a tour reservation tag image 255, a reservation reference tag image 257, a previous seat reservation tag image 259, and a movie tag image 261. When either one of these tag images is double clicked, the process corresponding to the double clicked tag image is started (at the initial condition when the terminal is activated), and the image corresponding to the process is displayed in front.
Since this reservation edition image window is determined to be the largest size among other images, even if any other image is displayed in front, a part of the reservation edition image (at least the header position at which a reservation edition pictogram 2~9 is indicated) is always visible. Therefore, whenever clicked, it is possible to display the reservation edition image in front.
The reservation contents acquired at each reservation process are transmitted to the reservation edition image display block 51 via the inter-process communication block 123. These reservation contents are listed on and displayed by a reservation content scroll selector 295 in the reservation edition image.
In the reservation edition image, there are provided a scroll selector 271 as a part for inputting reservation items, a name input box 273, an age input box 275, a sex distinction switch selector 277, an infant button 279, a contact place (where to make contact), ranking switch selector 281, two contact place input boxes 283 and 285, two contact place sort switch selectors 287 and 289, a passenger (or applicant) name input box 291, and a personal relationship switch selector 293. These parts are controlled by the reservation item input/output block 53 according to the operation of the keyboard 29 or the
PD 30. In more detail, when the name input box 273 is clicked, this box is displayed by a thick black frame.
Subsequently, if a passenger name is inputted through the keyboard 29, the name is displayed in the name input box 273. Thereafter, when age input box 275 is displayed by a thick black frame. Subsequently, if an age is inputted through the keyboard 29, the age is displayed in the age input box 275. When the sex distinction switch selector 277 and the infant button 279 are clicked, respectively, the sex distinction of the passenger and the infant 15 passenger are designated. All the passenger information designated as described above are listed and displayed by the passenger scroll selector 271. Further, when one of the contact place boxes 283 and 285 is clicked, the clicked box is displayed by a thick black frame.
Subsequently, if a telephone number is inputted through the keyboard 29, the input telephone number is displayed in the contact place input box displayed by a thick black frame. Since two place input boxes 283 and 285 are arranged, two contact places can be designated. When the contact place switch selectors 287 and 289 are clicked, two sorts of contact places can be designated. The contact place switch selector 281 is used to change the place where to make contact. When clicked, one of place boxes required to be changed is selected. After the 30 passenger (or applicant) input box 291 has been clicked, if a passenger (or applicant) name is inputted through the keyboard 29, the name is displayed in the box 291.
- When the personal relationship select switch 293 is clicked, the personal relationship between the applicant 35 and the passenger can be designated.
After all the reservation items have been designated as described above, when a transmit button 297 is clicked, a confirmation panel (not shown) is displayed in the reservation edition image in the same way as in the flight number reservation. When a confirmation button arranged therewithin is clicked, the reservation record preparation message transmit/receive block S5 prepares a reservation record with respect to the designated reservation items, and the message for modification or addition where necessary and sends the prepared record to the host computer 19 via the host-to-terminal communication process 125. When data indicative of reservation record preparation completion is returned from the host computer 19, the data is inputted to the reservation record preparation message transmit/receive block 55 via the host-to-terminal communication process 125. The reservation record preparation message transmit/receive block 55 transmits the data (if not erroneous) to the reservation result display block 47.
The reservation result display block 47 analyzes the input data, and displays a message indicative of the reservation record preparation on the reservation edition image. Thereafter, when a completion button 299 is further clicked, a completion message indicative o~ the reservation record preparation completion is sent to the host computer 19 via the same route as described above.
Since data indicative of a reservation record number are returned from the host computer 19, this reservation record number is displayed in a reservation record number box 263 on the reservation edition image. Further, when a transmit button is not clicked but only a completion button 299 is clicked, the communications between the host computer 19 and the terminal are executed collectively. Further, when a previous seat designation
- process as described later is started, the abovementioned reservation contents and reservation record 35 number are transmitted from the reservation result display block 47 to a previous seat designation image display block 59 (described lateral via the inter-process communication block 123.
In the reservation edition image, there are additionally provided a reservation edition pictogram 246 for deleting the reservation edition image, preparation date boxes 265 and 267 for displaying the reservation record preparation date, an available period box 269 for displaying the available period or the reserved record, an interrupt button 301 for transmitting an interrupt 10 message, a confirmation button 302 for transmitting a reference message to confirm the reservation contents, etc.
Further, it is also possible to change, delete and add the reservation record by use o~ the reservation edition image, in addition to the reservation record preparation. In these cases, however, it is necessary to select a function item o~ change, delete, or add, respectively on the menu image.
The previous seat designation process will be described hereinbelow. In this process, a seat o~ the reserved slight number can be designated. The process includes the functions shown by a previous seat designation image display block 59, a designation item input/output block 61, and a seat status transmit/receive 25 block 63.
The previous seat designation image display block 59 forms a previous seat designation image as shown in Fig. 8 and sends it to the image control block 119. This image includes a passenger scroll selector 311 and a reserved slight number scroll selector 313. The passenger scroll selector 311 displays a list o~ the passenger names transmitted from the reservation edition process, and the reserved slight number scroll selector 313 displays a list o~ the reserved slight numbers 35 transmitted from the same reservation edition process.
Prior to the seat designation, the seat designation status is first inquired. In this case generally, one passenger and one reserved flight number are selected by click operation from the passenger scroll selector 311 and the reserved flight number scroll selector 313, and then the seat chart button 307 is clicked. Therefore, since the seat chart display process is started and data indicative of the selected passenger and the reserved flight number are transmitted to the seat chart display process, the seat status transmit/receive block 63 prepares an inquiry message of the seat designation status about the selected and reserved flight number and sends it to the host computer 19 via the host-to-terminal communication process 125. When data indicative of the seat designation status are returned from the host computer 19, the data are transmitted to the seat status transmit/receive block 63 via the host-to-terminal communication process 125. The seat status transmit/receive block 63 transmits the received data (if not erroneous) to the previous seat designation image display block 59. The previous seat designation image display block 59 further transmits the received seat designation status data to the seat chart display process.
As described later, when the seat chart display process is started, a seat chart image as shown in Fig. 9 is displayed in front to allow the operator to designate a seat on this image. Data indicative of the designated seat are sent to the seat designation image display block 59 via the inter-process communication block 123. The seat designation image display block 59 displays the flight number whose seats are designated, the passenger names, and the designated seat numbers on the previous seat scroll selector 315.
In the seat designation image, there are additionally provided a seat designation pictogram 305 35 for deleting the seat designation image, and an interrupt button 309 for transmitting an interrupt message.
The seat chart display process will be described hereinbelow. This process is provided with functions shown by a seat chart image display block 65, a seat designation message transmit/receive block 67 and a seat 5 designation result display block 69.
The seat chart image display block 65 forms a seat chart image as shown in Fig. 9 and sends it to the image control block 119. In this image, there are provided a passenger/designated seat scroll selector 319 for displaying a list o~ passengers and the designated seats and a slight number box 325 for displaying the slight number. The above-mentioned selected passenger names and slight number transmitted from the previous seat designation process are displayed on the seat designation scroll selector 319 and the slight number box 325, respectively. Simultaneously, a seat chart 327 o~ the airplane model used for the reserved flight number is also displayed.
In the seat chart 327, seat buttons 329 indicative o~ seats, respectively are arranged. In these seat buttons, the occupied seats are displayed in color different from that o~ the unoccupied seat on the basis o~ the seat designation status data transmitted from the previous seat designation process. Further, various information useful or required for seat selection decision (e.g. smoking seats, non-smoking seats, doorway positions) is displayed in different colors and letters so as to be distinguishable.
To designate a seat, a seat button 329 required to designate within the seat chart 327 is clicked and then a transmit button 321 is clicked. Then, since a confirmation panel is displayed in front in the same way as in the flight number reservation, when the confirmation button is clicked, the seat designation 35 message transmit/receive block 67 prepares a message indicative o~ the seat designation for the clicked seat button (329) number, and sends it to the host computer 19 via the host-to-terminal communication process 125. When data indicative o~ the seat designation completion are returned from the host computer 19, the data are transmitted to the seat designation message transmit/receive block 67 via the host-to-terminal communication process 125. The seat designation message transmit/receive block 67 gives the received data (if not erroneous) to the seat designation result display block 69. The seat designation result display block 69 analyzes the received data; displays the designated seat number in the passenger/designated seat scroll selector 319 on the seat chart image 327; changes the color o~ the designated seat button 329 in the seat chart 327; displays a message indicative o~ seat designation completion in Japanese; and transmits the received data to the previous seat designation image display block 59 via the inter-process communication block 123.
In the seat chart image, there are additionally provided a seat chart pictogram 317 for deleting this image and an interrupt button 323 for transmitting an interrupt message.
The reservation record reference process will be described hereinbelow. This process is the one for referring to the previously prepared reservation record, and provided with various functions shown by a reservation record reference image display block 71, a reservation item input/output block 73, a reservation record list display block 81, a reservation reference message transmit/receive block 83, and a reservation record display block 85.
The reservation record reference image display block 71 forms a reservation record reference image as shown in
Fig. 10 and sends it to the image control block 119. In this image, there are provided a reference method select 35 switch 333, a reservation record number designation box 334, a name designation box 335, a slight number designation box 337 and two date designation boxes 339 and 341 as parts for designating the reservation record contents required for reference. These parts are controlled by the reservation item input/output block 73 according to the operation through the PD 30 and the keyboard 29. In more detail, when the reference method select switch 333 is clicked, the method is selected as to whether the reservation record is referred to on the basis of a reservation record number or another item.
When a reservation record number is selected, the reservation record designation box 334 is displayed by a thick frame. Subsequently, when a reservation record number is inputted through the keyboard 29, the input number is displayed in the reservation record designation box 334. Further, when a date, a flight number or a name is selected and further when a name designation box 335 or a flight number designation box 337 is clicked, the clicked box is displayed by a thick frame. Subsequently, when a passenger name or a flight number is inputted through the keyboard 29, the inputted item is displayed in the corresponding box shown by a thick frame. In the case o~ the date designation boxes 339 and 341, when the date designation tag image 351 is double clicked, the date designation image as shown in Fig. 4 is displayed in front. Therefore, if the date is designated on this image, the designated date data are transmitted via the inter-process communication block 123 and then displayed in the date designation boxes 39 and 41.
Further, it is unnecessary to designate all the three items o~ passenger name, slight number and date, 30 because the reserved record can be referred to by only a passenger name or both a passenger name and a date.
After the reservation items have been designated as described above, when the transmit button 43 is clicked, the reservation record reference message transmit/receive 35 block 83 forms a message indicative of a reservation record reference as to the designated reservation item, and sends it to the host computer 19 via the host-to-
terminal communication process 125. The response datacom the host computer 19 are transmitted to the reservation record reference message transmit/record block 83 via the host-to-terminal communication process 125. When a plurality o~ reservation record numbers are included in the response data, the reservation record reference message transmit/record block 83 transmits the response data to the reservation record list display block 81. The reservation record list display block 81 displays a plurality o~ passenger names (or both passenger names and dates) in the reservation record in the reservation record candidate scroll selector 349 as a list on the reservation record rererence image.
When a passenger name o~ one reservation record is clicked in a list o~ the reservation record candidate scroll selector 349 and further the transmit button 3~3 is clicked, the reservation record reference message transmit/receive block 83 forms a reservation record reference message o~ the clicked reservation record number and sends it to the host computer 19.
When the reference is made on the basis o~ a reservation record number at the beginning; when one reservation record number is designated from the list and then the reference is made again; or when there exists only one reservation record corresponding to the designated name or slight number, only a single reservation record data is included in the response data from the host computer 19. In this case, therefore, the reservation record reference message transmit/receive block 83 transmits the received response data to the reservation record display block 85. The reservation record display block 85 transmits the data to the reservation edit image display block 51 via the interprocess communication block 123, and simultaneously 35 controls the image control block Ill to display the reservation edit image in front. As a result, the reservation record contents are displayed on the reservation edit image. The reservation record can be changed, cancelled or added on this reservation edit image.
In the reservation record reference image, there are provided a reservation record reference pictogram 311 for deleting this image, an interrupt button 3g5, a succeeding page button 353 and a redisplay button 347 for transmitting a message o~ displaying above list again.
The hotel reservation process will be described hereinbelow. This process is the one for reserving hotels and includes various functions shown by a hotel reservation image display block 87, a hotel reservation status inquiry message transmit/receive block 93, a reservation status display block 95, a reservation 15 message transmit/receive block 99 and a hotel reservation result display block 101. These functions are basically the same as the similar functions o~ the slight number reservation process, except that there are some different points due to difference in reserved object between hotel and slight number. Therefore, only the different points are explained hereinbelow.
The hotel reservation image display block 87 forms a hotel reservation image as shown in Fig. 11. In this image, the following peculiar parts for hotel reservation 25 are provided. A city input box 357 displays a city name where hotels exists. This hotel designation can be performed by displaying the afore-mentioned domestic or international city designation image in front. An IN/OUT switch selector 371 is a parts for selecting any one o~ check-in date designation and check-out date designation.
A designated check-in or check-out date is displayed in date boxes 373, 375, 377 and 379. These designations can be made on the afore-mentioned date designation image displayed in front. Room code/number select switches 381 35 and 391 are used to designate any one o~ room types and the number o~ rooms. The left side select switch 381 is used to designate single bed rooms, and the right side select switch 391 is used to designate double bed rooms.
Room code select switches 383 and 393 are used to select a room type (charge). When "other" is selected with respect to the room type, since room type boxes 384 and 394 appear, the operator can input any given room type code through the keyboard 29. Room number boxes 385 and 395 are used to display the number of rooms designated through the keyboard 29 in usual. In these boxes, "1" is initially set in default of the number of rooms.
Increment/decrement buttons 387, 389, 397 and 399 are used to increase or decrease the number o~ designated rooms. Location switch selector 401 is used to select an environment at which hotels exist. Sort select switch 403 is used to select a sort of hotel, and grade select switch 405 is used to select a grade o~ hotel. Other requirements for hotel can be inputted through the keyboard 29 and displayed in an additional information input box 407.
Among the above-mentioned items, when a city name and a date are designated at the minimum and further the transmit button 359 is clicked, the hotel reservation status inquiry message transmit/receive block 93 inquires the hotel reservation status of the designated items to the host computer 19. The reservation status data are returned from the host computer 19 to the reservation status display block 95, so that the hotel names, grades, room types (room charge), etc. are displayed as a list in a hotel list scroll selector 409.
When a required hotel is selected within the hotel list scroll selector 409 and further the transmit button 359 is clicked, a confirmation panel is displayed. By clicking a confirmation button therewithin, the reservation message transmit/receive block 99 transmits the reservation message to the host computer 19. The response data are sent from the host computer 19 to the hotel reservation result display block 10 to display a message o~ reservation acquisition in a message box 411.
Simultaneously, since the response data are sent to. a reservation edit image display block 51, the reserved hotel contents are displayed in the reservation content scroll selector 295 located at the lower part of the reservation edit image. To allow this display to be visible, the vertical dimension o~ the hotel reservation image is determined smaller (by that of the reservation content scroll selector 295) than the reservation edit image. Further, the vertical dimension of the tour reservation image (described hereinbelow) is also determined smaller in the same way.
The tour reservation process will be described hereinbelow. This process is basically the same as the flight number reservation process, similarly to the above-mentioned hotel reservation process. Only the different points will be explained hereinbelow.
A tour reservation image display block 103 forms a tour reservation image as shown in Fig. 12. In this image, the following peculiar parts are provided. A departure/period/price switch selector 415 is used to select anyone of the day of departure, the period of tour, and the price of tour. Date boxes 417 and 419 display a designated day of departure. This departure day can be designated on the date designation image. A period box 421 displays a designated period of tour and a price box 427 displays a designated price o~ tour. These designations can be made through the keyboard 29 in usual. Increment/decrement buttons 423 and 425 increases or decreases the p-period of tour. Increment/decrement button 429 and 431 increases or decreases the price of tour. City select switches 433 and 451 are used to select any one of a departure city and four visit cities at the maximum. A departure city box 433 displays a designated departure city. Four visit city boxes 437, 439, 453 and 455 display designated visit cities. These designations can be made in the international city designation image. A room type switch selector 457 is used to select a room type. When "other" is selected, since a room type box 459 appears, a desired room type code can be entered through the keyboard 29. A person number box 461 displays a number o~ designated tourists inputted through the keyboard 29 in usual. The number o~ tourists "1" is initially set in default.
Increment/decrement switches 463 and 465 increases or decreases the number of tourists. A flight pattern switch selector 467 is used to select any one of three slight patterns. When "other" is selected, since a flight pattern box 469 appears, a desired flight pattern can be set through the keyboard 29. An additional information box 471 is used to input additional information such as special requirements through the keyboard 29.
Among the above-mentioned items, when the day of departure and the visit cities are designated at the minimum, it is possible to inquire the reservation status by clicking the transmit button 441. The reservation status returned from the host computer 19 is displayed in a tour list scroll selector 473. In this list, tour codes, tour names, hotels, rooms, meals, slight patterns, prices, etc. are displayed.
When a desired tour is selected from the tour list and then the transmit button 441 is clicked, a reservation message is transmitted to the host computer 19. When response data are returned from the host computer 19, a message o~ reservation acquisition is displayed in a message box 475, and the response data are transmitted to the reservation edit image display block
Motion picture display process 97 will be explained hereinbelow. After a desired hotel or tour has been selected from the hotel or tour list in the hotel or tour reservation image, when a visible part o~ the reservation edit image is clicked, the reservation edit image is displayed in front. Subsequently, when a motion picture
(movie) tag image 261 in the reservation edit image is clicked, the motion picture process 97 is started. To this motion picture process 97, a hotel or tour code selected just now is transmitted via the inter-process communication block 123. The motion picture process 97 sends the selected code and a motion picture display image as shown in Fig. 13 to the image control block 119.
This image control block 119 controls the AV device 15 to playback the hotel or tour motion picture corresponding to the selected code, so that the motion picture display image is arranged in front and further the corresponding motion picture is displayed in a motion picture area 479 within the motion picture display image. In this case, where some display modes such as image division, mosaic processing, picture standstill, etc. have previously been selected in a menu image (described later), the image control block 119 controls the motion picture so as to be displayed in the selected display mode. The motion picture display image can be deleted when a motion picture pictogram 477 is double clicked.
Finally, the menu control process 32 will be explained hereinbelow. This process is started when the menu button o~ the PD 30 is depressed, forms menu images as shown in Fig. 14A, and transmits these to the image control block 119, so that the menu image is displayed in front according to the cursor position. In this image, there are displayed a plurality o~ items (called parent items) such as "Reservation", "Change", "Execution", "Supplementary devices", "Color arrangement", "Display 30 management" etc. When either one o~ these parent items is clicked, some items (called child items) are displayed on the side o~ the parent item as shown in Figs.14B-14D.
Some major parent items will be explained hereinbelow in more detail.
Fig. 14B shows an example o~ display obtained when the parent item "Reservation" has been clicked. The child items are arranged in the order o~ "Next slight number", "Transmit", "Interrupt", and "Completion". When each of the child items is clicked, each corresponding operation can be executed in almost the same way as when the next flight number button, transmit button, interrupt button, and completion button displayed in the process image displayed just behind this menu image are clicked, respectively.
Fig. 14C shows an example of display obtained when the parent item "Change" is clicked. In this case, "Delete" and "Insert" are displayed as child items. For instance, in the case where this menu image is on the reservation edit image, if a reservation item required to be deleted is clicked in the reservation image and thereafter the child item "Delete" is clicked, it is possible to delete the reservation item. Further, when the passenger scroll selector 271 or the reservation content scroll selector 295 is clicked in the reservation edit image and thereafter the child item "Insert" is clicked, it is possible to add the passengers or reservation by use of the reservation edit image.
Fig. 14D shows an example obtained when the parent item "Color arrangement" is clicked. In this case, the color arrangement control process 34 is started to form a panel as shown in Fig. 14D. The formed panel is displayed on the lower right side of the CRT image, for instance. In this panel r there are provided 16 background color samples in boxes 481 and 483 and 16 color depth (shade) samples in boxes 487. When any desired color sample and color depth sample are clicked, a selected background color is displayed in an area 485.
Here, if a confirmation button 491 is clicked, the color of the background image is changed into the selected background color for practical color confirmation.
Subsequently, when a completion button 493 is clicked, the color of the background image is fixed to the selected background color. However, when a delete button 489 is clicked, this panel is deleted.
Fig. lgE shows an example o~ child items obtained when "Display management" is clicked. The process names whose window is currently open are arranged in order as child items. When either one o~ these process names is clicked, the image control block 119 displays the clicked process image in front. This function is convenient for displaying any required small image in front as when the small image is not visible behind a large image and further there exists no tag image representative o~ the required small image in the large image.
Figs. 15 to 27 show flowcharts showing a series o~ reservation procedure processed in each o~ the abovementioned processes, for assistance in understanding the function and the operation o~ the embodiment o~ the reservation system terminal according to the present invention in more clearness.
When the terminal is turned on, the reservation edition process is first started automatically. This reservation edition process will be described with reference to Fig. 15.
When data are inputted through the inter-process communications, the inputted data are displayed on the reservation edition image. When the reservation edition image is not displayed in front, the reservation edition can be selected in the menu processing (see Fig. 16). Or else, when a visible part o~ reservation edition image is clicked, the reservation edition image can be displayed in front. During the in-front display o~ the reservation edition image, when each tag image displayed on the reservation edition image ~e.g. slight number reservation, reservation record reference, previous seat, hotel, tour, motion picture, etc.) is double clicked, a process corresponding to the clicked tag image is started, and its started process image is displayed in front. Under these conditions, the operator has access to the process displayed in front.
The flight number reservation process will be explained with reference to Figs. 17A, B and C. When the flight number reservation image is not displayed in front, the flight number reservation image can be displayed in front by selecting the flight number reservation process in the menu processing, clicking a visible part of the flight number reservation image, or double clicking the flight number reservation tag image displayed on the reservation edition image, as already described. During the in-front display of the flight number reservation image, when each tag image of the date designation, domestic city designation or the international city designation is double clicked, the process corresponding to the double-clicked tag image (Fig. 18, 19 or 20) is started and displayed in front on the image, date data and city data inputted in the date designation process, the domestic city designation process or the international city designation process are transferred to the slight number reservation process through the inter-process communications and then displayed on the slight number reservation image. When various buttons on the flight number reservation image are clicked, various operations corresponding to the clicked buttons can be executed such as inputted data display, message transmission to the host computer, response data reception from the host computer, the received data display, etc. all described already. When the slight number reservation pictogram is double clicked, the flight number reservation image can be deleted.
Fig. 18 shows the date designation process. This date designation image can be displayed in front by
- selecting the date designation process in the menu processing, clicking a visible part of the date designation image or double clicking the date designation tag image on the other images (e.g. the flight number reservation image). During the in-front display of the date designation image, when any one of the date switches displayed on the image is clicked, the date data corresponding to the clicked switch are transferred to the reservation process through the inter-process communications. When the tag image of the flight number reservation, the domestic city designation or the international city designation displayed on the date designation image is double clicked, the process corresponding to the double-clicked tag image is displayed in front on the image (after having been started if the corresponding process is at halt).
Figs. 9A and B show the domestic city designation process. The domestic city designation image can be displayed in front by selecting the domestic city designation process in the menu processing, clicking a visible part of the domestic city designation image or double clicking the domestic city designation tag image on the other images. During the in-front display of the domestic city designation imager when the various switches or buttons are clicked, various operations related to the domestic city designation can be executed such as departure/arrival inputting, inputted data transferring to the flight number reservation process, etc. During the in-front display of the domestic city designation image, when either one of the flight number reservation tag image, the international city tag image, or the date designation tag image is double clicked, the process corresponding to the double-clicked tag image is displayed in front.
Figs. 20A and B show the international city designation process, which is basically the same in operation as the domestic city designation process.
The reservation edition process will be explained hereinbelow with reference to Figs. 21A to G.
The reservation edition image can be displayed in front by selecting the reservation edition process in the menu processing or clicking a visible part of the reservation edition image. As already explained, since the size of the reservation edition image is the largest in all, it is possible to display in front the reservation edition image at any reservation procedure.
When a tag image of another process is double clicked on this image, a process image corresponding to the doubleclicked tag image is displayed in front. Further, various information processed in the other process and necessary for the reservation edition process is automatically transferred to the reservation edition process through the inter-process communications and then displayed on the reservation edition image. When various buttons or switches displayed on the reservation edition image are clicked or thereafter the keyboard is operated, various operations can be executed such that inputted data are displayed on the reservation image; messages are transmitted to the host computer; response data from the host computer are received and displayed; etc., as already explained.
Figs. 22A and B show the previous seat designation process. the previous seat designation image can be displayed in front by selecting the previous seat designation process in the menu processing, clicking a visible part of the previous seat designation image, or double-clicking the previous seat designation tag image on the reservation edition image. When various buttons on this image and lists within the scroll selector are clicked, various processing required for the previous seat designation process can be executed as already explained.
Figs. 23A and B show a seat chart process. This seat chart image can be displayed in front by selecting the seat chart process in the menu processing, clicking a visible part of the seat chart image or a seat chart button on the previous seat image. Whenever the seat buttons are clicked on the seat chart image, the clicked seat numbers can be saved. When various buttons on the seat chart image are clicked, various operations can be executed in correspondence to the clicked buttons as already explained.
The reservation record reference process will be explained with reference to Figs. 24A and B.
The reservation record reference image can be displayed in front by selecting the reservation record reference process in the menu processing, clicking a visible part of the reservation record reference image, or double-clicking the reservation record reference tag image on the reservation edition image. When various switches and buttons on this image are clicked, various operations corresponding to the clicked switches and buttons are executed, as already explained. When the contents of a specific reservation record is required to be referred to in this reservation record reference process, the contents are transferred to the reservation edition process automatically through the inter-process communications, and then displayed in front on the reservation edition image.
Figs. 25A, B and C show the hotel reservation process, and Figs. 26A, B and C show the tour reservation process. These processes are basically similar to the flight number reservation process. That is, when various buttons and switches on the hotel or tour reservation image or lists within the scroll selector are clicked, various processing corresponding to the clicked parts can be executed.
Figs. 27A and B show the international city designation process started by double clicking the international city designation tag image on the hotel or tour reservation image. This process includes the processing of the international city designation process shown in Fig. 20 and the processing of the visit city designation.
Fig. 28 shows the motion picture process. The motion picture image can be displayed in front by selecting the motion picture process in the menu processing, clicking a visible part o~ the motion picture image, or double-clicking the motion picture tag image on the reservation edition image. Further, divided image or mosaic image processing or static image display can be executed. Further, the motion picture image can be deleted by double clicking the motion picture pictogram.
One preferred embodiment o~ the present invention has been explained by way o~ example as described above.
Without being limited thereto, however, the present invention can be applied not only to a reservation system for only slight number, hotel or tour, but also to the reservation system for other transport facilities, theaters, restaurants, etc. Further, it is also possible lS to omit the afore-mentioned some process according to the required reservation objects and the number o~ observation items. In the case o~ the most simple system, for instance, the reservation process and the host-to-terminal communication process may be sufficient.
Further, it is also possible to incorporate one o~ the above-mentioned various process with a conventional system. Furthermore, the composition o~ the images can be modified in various ways.