Patents by Inventor Kat Fan YIP
Kat Fan YIP has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10998965Abstract: A high throughput satellite (HTS) and a method of operating the HTS for relaying data between a low earth orbit (LEO) satellite and a target ground station, where the HTS provides spot beams for a spot beam coverage area. The method of operating the HTS includes: determining an estimated trajectory of an orbiting LEO satellite; assigning a plurality of assigned spot beams having a matching color re-use polarization; and transmitting assignments of the plurality of assigned spot beams to the high throughput satellite to cause the high throughput satellite to maintain the inter-satellite link via a first spot beam and one or more assigned subsequent spot beams having the matching color re-use polarization.Type: GrantFiled: December 31, 2019Date of Patent: May 4, 2021Assignee: ASIA SATELLITE TELECOMMUNICATIONS COMPANY LIMITEDInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10972191Abstract: A geolocation method and system for locating the source of interference to a high throughput satellite. The method involves determining relative power level differences between interference signals received by the victim spot beam and co-colored nearby spot beams on the same satellite. Using beam pattern data, the relative power levels for a pair of beams determines contour lines of possible location the correspond to the relative power difference in the signals received by the two beams in the pair. A point of intersection of contour lines from multiple pairs of spot beams indicates the location of the source of interference.Type: GrantFiled: May 22, 2018Date of Patent: April 6, 2021Assignee: Asia Satellite Telecommunications Company LimitedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Publication number: 20200259560Abstract: A high throughput satellite (HTS) and a method of operating the HTS for relaying data between a low earth orbit (LEO) satellite and a target ground station, where the HTS provides spot beams for a spot beam coverage area. The method of operating the HTS includes: determining an estimated trajectory of an orbiting LEO satellite; assigning a plurality of assigned spot beams having a matching color re-use polarization; and transmitting assignments of the plurality of assigned spot beams to the high throughput satellite to cause the high throughput satellite to maintain the inter-satellite link via a first spot beam and one or more assigned subsequent spot beams having the matching color re-use polarization.Type: ApplicationFiled: December 31, 2019Publication date: August 13, 2020Inventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10707954Abstract: Dual-band satellite communication systems and methods are described. A dual-band satellite communication system is described with an array of feeds. The array includes single band feeds and one or more multi-band feeds. The multi-band feeds provide dual-band spot beams. Dual-band spot beams include a first frequency band spot beam and a second frequency band spot beam. A spot beam layout may be provided when a shared reflector for the array of feeds is provided. The first frequency band beamwidth may be smaller than a second frequency band beamwidth and the number of multi-band feeds in the array of feeds may be less than the number of single band feeds.Type: GrantFiled: May 9, 2019Date of Patent: July 7, 2020Assignee: Asia Satellite Telecommunications Company LimitedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10601499Abstract: A high throughput satellite and a method of operating a high throughput satellite. The satellite has multiple modes of operation and transitions between them in response to the spectrum fill rate. Modes of operation may include altering color re-use patterns to increase or reduce number of colors, using intra-beam geographic sub-division, or precoding downlink signals.Type: GrantFiled: April 11, 2019Date of Patent: March 24, 2020Assignee: Asia Satellite Telecommunications Company LimitedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Kat Fan Yip, Hai Hu, Man Hei Chan, Harry Yin Chung Leung
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Publication number: 20200052779Abstract: A high throughput satellite and a method of operating a high throughput satellite. The satellite has multiple modes of operation and transitions between them in response to the spectrum fill rate. Modes of operation may include altering color re-use patterns to increase or reduce number of colors, using intra-beam geographic sub-division, or precoding downlink signals.Type: ApplicationFiled: April 11, 2019Publication date: February 13, 2020Inventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Kat Fan Yip, Hai Hu, Man Hei Chan, Harry Yin Chung Leung
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Publication number: 20200014460Abstract: A high throughput satellite (HTS) and a method of operating the HTS for relaying data between a low earth orbit (LEO) satellite and a target ground station, where the HTS provides spot beams for a spot beam coverage area. The method of operating the HTS includes: determining an estimated trajectory of an orbiting LEO satellite; assigning a plurality of assigned spot beams having a matching color re-use polarization; and transmitting assignments of the plurality of assigned spot beams to the high throughput satellite to cause the high throughput satellite to maintain the inter-satellite link via a first spot beam and one or more assigned subsequent spot beams having the matching color re-use polarization.Type: ApplicationFiled: July 3, 2018Publication date: January 9, 2020Inventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10523312Abstract: A high throughput satellite (HTS) and a method of operating the HTS for relaying data between a low earth orbit (LEO) satellite and a target ground station, where the HTS provides spot beams for a spot beam coverage area. The method of operating the HTS includes: determining an estimated trajectory of an orbiting LEO satellite; assigning a plurality of assigned spot beams having a matching color re-use polarization; and transmitting assignments of the plurality of assigned spot beams to the high throughput satellite to cause the high throughput satellite to maintain the inter-satellite link via a first spot beam and one or more assigned subsequent spot beams having the matching color re-use polarization.Type: GrantFiled: July 3, 2018Date of Patent: December 31, 2019Assignee: Asia Satellite Telecommunications Company LimitedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Publication number: 20190363803Abstract: A geolocation method and system for locating the source of interference to a high throughput satellite. The method involves determining relative power level differences between interference signals received by the victim spot beam and co-colored nearby spot beams on the same satellite. Using beam pattern data, the relative power levels for a pair of beams determines contour lines of possible location the correspond to the relative power difference in the signals received by the two beams in the pair. A point of intersection of contour lines from multiple pairs of spot beams indicates the location of the source of interference.Type: ApplicationFiled: May 22, 2018Publication date: November 28, 2019Inventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10404354Abstract: Satellite communication methods and payloads are described. An imbalance in uplink and downlink availability may be mitigated through digitizing uplink spectrum, extracting guard band channels, and grouping the guard band channels to create a composite channel. The composite channel is converted to analog and RF up-converted, amplified, and multiplexed with other downlink analog channels before being transmitted to Earth. The guard bands may be from the same band of spectrum or different bands of spectrum, such as C band, Ka band, Ku band, etc. A satellite payload is described with dual output multiplexers having partially overlapping channels and a dual feed configuration. In one downlink implementation, unused regional band spectrum may be dynamically allocated to a spot beam. In one uplink implementation, regional band spectrum may be shared by a spot beam using spatial separation of the regional uplink location from the spot beam coverage area and digital cancellation techniques.Type: GrantFiled: January 20, 2017Date of Patent: September 3, 2019Assignee: Asia Satellite Telecommunications Company LimittedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Hai Hu, Harry Yin Chung Leung, Man Hei Chan, Kat Fan Yip
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Publication number: 20190268066Abstract: Dual-band satellite communication systems and methods are described. A dual-band satellite communication system is described with an array of feeds. The array includes single band feeds and one or more multi-band feeds. The multi-band feeds provide dual-band spot beams. Dual-band spot beams include a first frequency band spot beam and a second frequency band spot beam. A spot beam layout may be provided when a shared reflector for the array of feeds is provided. The first frequency band beamwidth may be smaller than a second frequency band beamwidth and the number of multi-band feeds in the array of feeds may be less than the number of single band feeds.Type: ApplicationFiled: May 9, 2019Publication date: August 29, 2019Inventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10291317Abstract: Dual-band satellite communication systems and methods are described. A dual-band satellite communication system is described with an array of feeds. The array includes single band feeds and one or more multi-band feeds. The multi-band feeds provide dual-band spot beams. Dual-band spot beams include a first frequency band spot beam and a second frequency band spot beam. A spot beam layout may be provided when a shared reflector for the array of feeds is provided. The first frequency band beamwidth may be smaller than a second frequency band beamwidth and the number of multi-band feeds in the array of feeds may be less than the number of single band feeds.Type: GrantFiled: September 8, 2016Date of Patent: May 14, 2019Assignee: Asia Satellite Telecommunications Company LimitedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Patent number: 10291315Abstract: A high throughput satellite and a method of operating a high throughput satellite. The satellite has multiple modes of operation and transitions between them in response to the spectrum fill rate. Modes of operation may include altering color re-use patterns to increase or reduce number of colors, using intra-beam geographic sub-division, or precoding downlink signals.Type: GrantFiled: June 4, 2018Date of Patent: May 14, 2019Assignee: Asia Satellite Telecommunications Company LimitedInventors: Roger Shun Hong Tong, Fred Chun Yin Vong, Harry Yin Chung Leung, Hai Hu, Man Hei Chan, Kat Fan Yip
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Publication number: 20180069621Abstract: Dual-band satellite communication systems and methods are described. A dual-band satellite communication system is described with an array of feeds. The array includes single band feeds and one or more multi-band feeds. The multi-band feeds provide dual-band spot beams. Dual-band spot beams include a first frequency band spot beam and a second frequency band spot beam. A spot beam layout may be provided when a shared reflector for the array of feeds is provided. The first frequency band beamwidth may be smaller than a second frequency band beamwidth and the number of multi-band feeds in the array of feeds may be less than the number of single band feeds.Type: ApplicationFiled: September 8, 2016Publication date: March 8, 2018Inventors: Roger Shun Hong TONG, Fred Chun Yin VONG, Harry Yin Chung LEUNG, Hai HU, Man Hei CHAN, Kat Fan YIP
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Publication number: 20170135108Abstract: Satellite communication methods and payloads are described. An imbalance in uplink and downlink availability may be mitigated through digitizing uplink spectrum, extracting guard band channels, and grouping the guard band channels to create a composite channel. The composite channel is converted to analog and RF up-converted, amplified, and multiplexed with other downlink analog channels before being transmitted to Earth. The guard bands may be from the same band of spectrum or different bands of spectrum, such as C band, Ka band, Ku band, etc. A satellite payload is described with dual output multiplexers having partially overlapping channels and a dual feed configuration. In one downlink implementation, unused regional band spectrum may be dynamically allocated to a spot beam. In one uplink implementation, regional band spectrum may be shared by a spot beam using spatial separation of the regional uplink location from the spot beam coverage area and digital cancellation techniques.Type: ApplicationFiled: January 20, 2017Publication date: May 11, 2017Inventors: Roger Shun Hong TONG, Fred Chun Yin VONG, Hai HU, Harry Yin Chung LEUNG, Man Hei CHAN, Kat Fan YIP