||WO||WO/2014/185768 - A METHOD OF SPECTRUM AWARE ROUTING IN A MESH NETWORK AND A SYSTEM DERIVED THEREOF||20.11.2014||
||PCT/MY2014/000066||MIMOS BERHAD||BIN ABU BAKAR, Ahmad, Zaki|
The present invention discloses a method of spectrum aware routing for data packet delivery from a source to a destination in a wireless mesh network. Preferably, the method computing node costs (34) for each mesh node presented in the network based on various factors affecting radio, channel and network condition. Node with lower node cost is considered better options in delivering the packet in the present invention. Further, the disclosed method accumulates and/or averages the sum of all nodes (30) in each possible route or path capable of transmitting the packet data to derive a link cost for each path and the packet data is delivered through path with the lowest link cost.
||WO||WO/2014/185769 - METHOD, APPARATUS AND SYSTEM FOR DIGESTION AND PRESSING OF OIL PALM FRUIT||20.11.2014||
||PCT/MY2014/000073||SIME DARBY MALAYSIA BERHAD||BIN SHIAFI, Sulaiman|
The present invention relates to a method for the digestion and pressing of oil palm fruit in a palm oil milling process. The method comprises controllably feeding a pretreated oil palm fruit into a digester having rotating means, injecting a predetermined amount of water at a temperature of 80°C to 100°C into and at bottom side of the digester to remove crude palm oil from the oil palm fruit and to dilute the crude palm oil, collecting the crude palm oil removed from the oil palm fruit through a perforated base plate provided within the digester; and discharging the digested oil palm fruit from the digester. The present invention also relates to a system and apparatus for carrying out the method of the invention.
||WO||WO/2014/185770 - METHOD AND SYSTEM FOR DETECTING KEYLOGGER||20.11.2014||
||PCT/MY2014/000086||MIMOS BERHAD||MUBARAK, Mohd Faizal Bin|
A method and system for detecting a keylogger wherein details from the system call requests (201) relating to the keyboard buffer (112) are recorded, and if any suspicious behaviour is identified through monitoring (209) the application log (106) for duplication of information, the system inserts (217) a data pattern as bait into the keyboard buffer such that if the bait is duplicated by an unrelated application, the system confirms (226) that a keylogger has been detected.
||WO||WO/2014/185771 - A CAPACITIVE HUMIDITY SENSOR||20.11.2014||
||PCT/MY2014/000093||MIMOS BERHAD||WAI YEE, Lee|
The present invention relates to a capacitive humidity sensor (100) comprising: a semiconductor substrate (101); an insulating layer (103) rests on the semiconductor substrate (101); a sensing membrane (105); a plurality of interdigitated electrodes (107); and a plurality of electrode contacts (109); characterised in that the present invention having ground plane connections (111) and the interdigitated electrodes (107) are sandwiched by the sensing membrane (105). The ground plane connections (111) and the sandwiching sensing membrane (105) are configured to eliminate stray capacitance and to provide optimal utilisation of fringing field effectrespectively.
||WO||WO/2014/182150 - METHOD FOR PRODUCING A GRAPHIC REPRESENTATION ON A FILM||13.11.2014||
||PCT/MY2013/000128||KUA, Kee Chong||KUA, Kee Chong|
The present invention relates to a method of producing a graphic representation on a film intended for application on transparent medium and/or glass surfaces. The method comprises the steps of preparing a graphic design pattern; inputting the graphic design pattern to a computer, which is in electronic connection to a printing media; contacting the film to the printing media; and directly printing the graphic representation to surface and substrate of the film.
||WO||WO/2014/182153 - A WATER INGRESSION TEST DEVICE FOR TESTING WATER PROOFING PERFORMANCE OR A UNIT UNDER TEST (UUT)||13.11.2014||
||PCT/MY2014/000078||MIMOS, Berhad||AZMIR BIN Aladin|
The present invention relates to a water ingression test device (10) for testing water proofing performance of a unit under test (UUT). One of the advantages of the water ingression test device for testing water proofing performance of a unit under test (UUT) of the present invention is it determines the capability of outdoor-rated product enclosures ingression protection. The water ingression test device (10) for testing water proofing performance of a unit under test (UUT) of the present invention is versatile with a heated chamber, adjustable water jet pressure flow-rate and ability to a variable test distance range for establishing the limit of enclosure ingression protection. The water ingression test device (10) for testing water proofing performance of a unit under test (UUT) of the present invention having advantage of a water jet pressure flow-rate can be controlled to set from 1 to 150 LPM, depend on compliance standard or engineering requirements. Furthermore, it can accommodate any enclosure (Unit Under Test) sizes since targeted station is detachable and the product under test can be automatically rotate to other surfaces after period of exposure time or can be manually rotate as per user defined.
||WO||WO/2014/182158 - ASSAY FOR IDENTIFYING ANIMAL SPECIES IN RAW AND THERMALLY PROCESSED CONDITIONS||13.11.2014||
||PCT/MY2014/000087||INSTITUT PENYELIDIKAN DAN KEMAJUAN PERTANIAN MALAYSIA (MARDI)||HASAN, Haslina|
The present invention relates to a method for identifying animal species in raw and thermally processed conditions based on animal fats detection. Six groups of animal fat TAG regioisomers detected were analysed by the application of discriminant analysis to explore the extent of variation occurring with different animal species and different types of thermal processing. From the results, it is concluded that the raw and meat products of different species processed by microwave, hotpot, roasting and currying are separated well in the Discriminant Analysis (DA) scores plot. The present invention confirms that the discrimination of meat from different animal species is possible for both raw and processed meat products, and reveals that the differences produced by the various processing methods are less than the variations observed between species. This is entirely new approach for animal species identification from animal fat as TAG regioisomers has not been completely resolved elsewhere.
||WO||WO/2014/182155 - A SYSTEM AND METHOD FOR DISTRIBUTING AND TRANSMITTING CONTENT OVER A WIRELESS MESH NETWORK||13.11.2014||
||PCT/MY2014/000082||MIMOS BERHAD||OOI, Hoey Yew|
The present invention relates to a system and method for distributing and transmitting content over a number of wireless nodes (220) in a wireless mesh network. The system distributes the content based on profiles of the wireless nodes (220) which include mobility of the wireless nodes (220), link cost calculation between the wireless nodes (220), capacity of the wireless nodes (220), and frequency of keywords or content searched. The system comprises of at least one content server (100) connected to a wireless mesh network, wherein the wireless mesh network includes a gateway (210), a plurality of wireless nodes (220), and at least one user device (230).
||WO||WO/2014/182154 - A METHOD FOR PROTECTING A PROGRAMMABLE GATE ARRAY DESIGN||13.11.2014||
||PCT/MY2014/000081||MIMOS BERHAD||BIN NAWI, Ahmad, Hafez|
The present invention relates to a method for protecting a programmable gate array design. The method uses secure keys, unique identifications (UIDs), encrypted bit stream, as well as license server and software IDs for better protection of a programmable gate array design.
||WO||WO/2014/182156 - A SYSTEM AND METHOD FOR DETECTING AN OBJECT||13.11.2014||
||PCT/MY2014/000083||MIMOS BERHAD||SHAHIRINA BINTI MOHD TAHIR|
The present invention relates to a system and method for detecting an object. The system and method reduce the amount of computations needed in detecting and tracking the moving object by predicting the motion of the object in the following frames. Thus, the system (1000) is able to focus on computing a portion of the frame where the object has been predicted to be in. The system (1000) comprises of an image acquisition module (1100), a buffering module (1200), a pre-processor (1300), an image sub-segmenting module (1400), an image sub-segment module (1500), a main processor (1600), an object feature extracting module (1700), a predictive module (1800) and an object and priority evaluator (1900).