Halliday
Daryl Colin Halliday, Toronto CA
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20080262915 | Loyalty rewards management and processing system and method - A system and method for processing a transaction in connection with a loyalty rewards program comprising identifying at least one individual associated with said transaction, communicating associated information to a processing component that includes rules and logic associated with said loyalty rewards program, determining an eligible amount associated with said transaction for at least one promotion, determining at least one reward based on said eligible amount and said at least one promotion, and storing detailed, comprehensive, line item information associated with the transaction. Said system and method may further comprise determining an owed amount associated with at least one loyalty provider based on said rules and logic and charging said at least one loyalty provider for said owed amount. Such a system will facilitate marketing strategies, processing of returns, and management of cross-promotional arrangements, and will enable merchants to develop, implement, and manage complex loyalty rewards programs. | 10-23-2008 |
David Halliday, Maple Ridge CA
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20090065653 | Fast Track Switch - A system for sequentially switching a plurality of guide ways to accommodate at least one vehicle with a plurality of ground engaging portions following a plurality of plural track segments is provided. The system includes a primary guide way to receive at least one of the plurality of ground engaging portions of the at least one vehicle and a secondary guide way located in proximity to the primary guide way. The secondary guide way may be configured to receive another of the plurality of ground engaging portions of the at least one vehicle. The system may also include a controller configured to sequentially switch the primary guide way and the secondary guide way whereby the at least one vehicle may travel in one direction or in another direction. A method of switching a plurality of guide ways is also presented. | 03-12-2009 |
20110260009 | Fast Track Switch - A system for sequentially switching a plurality of guide ways to accommodate at least one vehicle with a plurality of ground engaging portions following a plurality of plural track segments is provided. The system includes a primary guide way to receive at least one of the plurality of ground engaging portions of the at least one vehicle and a secondary guide way located in proximity to the primary guide way. The secondary guide way may be configured to receive another of the plurality of ground engaging portions of the at least one vehicle. The system may also include a controller configured to sequentially switch the primary guide way and the secondary guide way whereby the at least one vehicle may travel in one direction or in another direction. A method of switching a plurality of guide ways is also presented. | 10-27-2011 |
David J. Halliday, Maple Ridge CA
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20140326161 | ZIPLINE BRAKING SYSTEM - A zipline braking system comprising a zipline cable and a destination supporting member; a rider carrier coupled to the zipline cable for movement towards the destination supporting member, such movement generating kinetic energy; a damper having a posterior end and an anterior end and connected to the destination supporting member at the posterior end; a tension line; a stopping member coupled to the zipline cable and the tension line; and the tension line for transferring the kinetic energy to the damper upon the rider carrier engaging the stopping member in movement to the destination supporting member. | 11-06-2014 |
Judy Halliday, Chappl Hill AU
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20110165700 | CLASSES OF COMPOUNDS THAT INTERACT WITH INTEGRINS - A method of inhibiting or effecting the activity of an integrin receptor comprises contacting an integrin with a pyranose of formula I, or a pharmaceutically acceptable salt thereof. | 07-07-2011 |
Judy Halliday, Chappel Hill AU
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20080280837 | Biologically Active Compounds with Anti-Angiogenic Properties - A method for inhibiting angiogenesis in a subject comprising administering to the subject at least one compound of General Formula (I), wherein the ring or any chiral center(s) may be of any configuration; Z is sulphur, oxygen, CH2, C(O), C(O)HN, NH, NRA or hydrogen, in the case where Z is hydrogen then R1 is not present, RA is selected from the set defined for R1 to R5, X and X′ are independently oxygen or nitrogen providing that at least one X of General Formula (I) is nitrogen, X or X′ may also combine independently with one of R1 to R5 to form an azide, R1 to R5 are independently selected from the following definition which includes but is not limited to H or an alkyl, acyl, alkenyl, alkynyl, heteroalkyl, aryl, heteroaryl, arylalkyl or heteroarylalkyl substituent of 1 to 20 atoms, which is optionally substituted, and can be branched or linear, and R6 and R7 are hydrogen, or may combine to form a carbonyl function. | 11-13-2008 |
Krista Elaine Halliday, Ancaster CA
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20130064479 | FEEDING BAG SYSTEM WITH INTERCHANGEABLE ATTACHMENTS - A feeding bag system, comprising at least one reusable feeding bag suitable for holding liquids and solid foods, each bag defining a mouth at an upper end of the bag, and a plurality of attachments for regulating the passage of material into or out of the bag, each attachment having a connecting assembly for detachably connecting the attachment to the mouth of the at least one bag to form a liquid-proof seal therewith. | 03-14-2013 |
Pieter Stephanus Jacobus Halliday, Randburg ZA
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20130255520 | Detonation of Explosives - An explosives detonator system for detonating an explosive charge with which it is, in use, arranged in a detonating relationship is provided. On acceptance of a detonation initiating signal having a detonation initiating property, the system initiates and thus detonates the explosive charge. The system includes an initiating device which accepts the detonation initiating signal and initiates and thus detonates the explosive charge. The initiating device is initially in a non-detonation initiating condition, in which it is not capable of accepting the detonation initiating signal. The system also includes a radio frequency identification (RFID) based switching device that detects a switching property of a radio switching signal that is transmitted to the detonator system and switches the initiating device, on detection of the detonation initiating property, to a standby condition in which the initiating device is capable of operatively accepting the detonation initiating signal when it is transmitted thereto. | 10-03-2013 |
20130255521 | Detonation of Explosives - An explosives detonator system for detonating an explosive charge with which it is, in use, arranged in a detonating relationship is provided. On acceptance of a detonation initiating signal having a detonation initiating property, the system initiates and thus detonates the explosive charge. The system includes an initiating device which accepts the detonation initiating signal and initiates and thus detonates the explosive charge. The initiating device is initially in a non-detonation initiating condition, in which it is not capable of accepting the detonation initiating signal. The system also includes a switching device that detects a chemical compositional component as a switching property of a switching signal that is transmitted to the detonator system, with the switching device being capable of switching the initiating device, on detection of the chemical compositional component, to a standby condition in which the initiating device accepts the detonation initiating signal when it is transmitted thereto. | 10-03-2013 |
20130319276 | Detonation of Explosives - An explosives detonator system includes a detonator housing within which is provided a detonation circuit that includes a conductive pathway having a fuse head integrated therewith such that the conductive pathway passes along both electrodes and a resistive bridge of the fuse head. An uncharged chargeable voltage source is also integrated with the detonation circuit and is electrically sensitive to a charging property which is included in a charging signal. Exposure to the charging property charges the voltage source, thereby rendering it capable of generating a potential difference between the electrodes at least to equal the breakdown voltage of the resistive bridge. The charging property is any one or more of a charging light pulse, a charging temperature, a charging pressure and a charging radio frequency. | 12-05-2013 |
20140245917 | PYROTECHNIC TIME DELAY ELEMENT - A pyrotechnic time delay element which includes a casing made from a plastics material, a pyrotechnic composition inside the volume, a membrane inside the volume against one end of the pyrotechnic composition and a primary explosive inside the volume on an opposing side of the membrane. | 09-04-2014 |
20140299011 | BOOSTER ASSEMBLY - An explosive booster assembly ( | 10-09-2014 |
20140305327 | SIGNAL TUBE CONNECTOR - A signal tube connector which can be used with a number of signal tubes which includes a detonator receiving body and a retention member, wherein a signal tube locating space is formed between opposing surfaces of the body and the member and wherein the retention member is movable relative to the body and can be locked in place with a locking mechanism to retain signal tubes within the space. | 10-16-2014 |
William Halliday, Edinburgh UK
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20130271649 | CAMERA MODULE, METHOD OF ASSEMBLY AND IMAGING DEVICE - A camera module has a lens module mounted on a substrate. The image sensor is located in a cavity in the substrate and is connected to the substrate by a bridge member, the infra-red filter. The image sensor is attached to the infra-red filter by a ring of adhesive surrounding the imaging area of the image sensor. The adhesive attaching the image sensor to the infra-red filter comprises spacers. The infra-red filter is attached to the substrate by adhesive. The cavity may extend through the substrate. The image sensor is further connected to the substrate by a sheet member, which may be made of metal. The sheet member is affixed to the bottom of the substrate and covers the hole in the substrate formed by the extension of the cavity through the substrate. A method of assembly of the camera module includes: providing a substrate with a cavity; locating the image sensor in the cavity; connecting the infra-red filter to the image sensor and the substrate; and mounting the lens module on the substrate. | 10-17-2013 |