TH99367A - Improved use of subframes in cellular communication systems. - Google Patents

Abstract

DC60 (27/04/16) This invention discloses a (500) method for cellular communication systems (100) where traffic is transmitted in multiple frames (200) that each frame is assembled. With many subframes (201-210) first value By many subframes, such a second value is available for at least the traffic. Inbound or inbound links The one At least one of the many sub frames. That second value has been created to include At least three (515) of the following part (520) that have been utilized for the upward link traffic (525) that have been exploited for the traffic. Part of the downward link (530) that has been utilized as a control period. With the said control period (525) that was scheduled during the Inbound links and inbound links segment. The intervals of at least two of these three sections (520, 525, 530) may be variable to suit the current system requirements. Edit Summary of Invention 27/04/2016 This invention discloses a (500) method for cellular communication systems (100) where traffic is transmitted in multiple frames (200) at each frame. It consists of multiple subframes (201-210). By many subframes, such a second value is available for at least the traffic. Inbound or inbound links The one At least one of the many sub frames. That second value has been created to include At least three (515) of the following part (520) that have been utilized for the upward link traffic (525) that have been utilized for the traffic. Part of the downward link (530) that has been utilized as a control period. Along with the said control period (525) was scheduled during the Inbound links and inbound links segment. The intervals of at least two of these three sections (520,525, 530) may be variable to suit the current system requirements. -------------------------------------------------- ------------ This invention discloses a method (500) for a cellular communication system (100) where traffic is transmitted in multiple frames (200) at Each frame is assembled with The first number of subframes (201- 210), along with the second number of those sub frames, are available for at least the traffic. Inbound links or inbound links The one One of the aforementioned second number of That subframe has been built to be assembled with At least three (515) of the following part (520) that have been utilized for the upward link traffic (525) that have been utilized for the traffic. Part of the downward link (530) that has been utilized as a control period. Along with the said control period (525) was scheduled during the Inbound links and inbound links segment. The intervals of at least two of these three sections (520,525, 530) may be variable to suit the current system requirements.

Claims (3)

Disclaimer (all) which will not appear on the advertisement page: EDIT 27/04/2016 1. Method (500) for use in cellular communication system (100) where in that system Traffic is transmitted in multiple frames (200) where each frame is made up of multiple sub frames (201-210), with that subframe available for at least the link traffic. Legs up Or downward links The one Where at least one of the many subframes is Has been built to be assembled with At least three (515) of the following - part (520) that have been utilized for the upward link traffic - part (525) that has been exploited for traffic. Downlink Traffic - Part (530) that has been utilized as a control period. Along with the said control period (525) was scheduled during the session. Inbound links and inbound links segment. In such a way that the sum of the periods of the segment The downward link, the control period, and the upward link are all part of the subframe length. The intervals of at least two of those three (520,525, 530) sections of at least one subframe may be varied in order to align. 2. Methods (500, 540) of claim 1 applied to the system - TDD. Time-split two-way communication, that is, a system that uses a non-dual frequency spectrum so that the upward link traffic is And an inbound link in at least a certain number of cells in the system is formed during Different subframes 3. Method (500, 540) of claim 2 where traffic, upward links and links The downtrend will occur on the same frequency. 4. Method (500,535) of claim 1 applied to the communications system - FDD. Two-and-a-half-way, frequency-dividing two-way communication so that upward link traffic and Downlink for one user and the same person in many cells, the first value is at least in That system will occur between different subframes. And on different frequencies 5. Method (500) of any of the preceding claims by the method in which the control period will be One of at least two of those parts of that third. And according to the method Where the control period is varied (550) over time compared to at least one of the following parameters: - interference from or with other cells. In the same system Or other cells in a contiguous or other co-locating system - the size of the cell which determines the maximum round-trip diffusion time, the RTT in that cell - the worksheet. Modulation applied for the traffic in that cell 6. Method (500,545) of claim 5, according to the method in which the control period (525) is varied compared to Interpolation from or with other cells in that system so that the duration of the control period That would be generated at least equal to the propagation time of the signal from at least one node. 7. Method (500) of any clause 1-6, according to the method in which the system is one where the OFD modulation method , Perpendicular frequency divider modulation, has been used in at least One of the directions, the upward link and the downward link, and that contains at least one of the traffic. The upward link and the downward link portion of the aforementioned second number of subframes are assigned a time interval corresponding to the integer value of the OFDM symbol in that modulation method. Method (500) of any of the preceding clauses in accordance with the method by which such subframe (420) has been created in order to include. At least three parts Has been inserted after the subframe (410) has been introduced for downlink traffic. And it was tracked with subframe (430) which was introduced for uplink traffic. Along with the inbound links section. 9. Methods (500) of Claims 1-8 in accordance with the method by which such subframe (410) has been created in order to assemble. A total of three parts have been inserted after the subframe. Has been adopted for uplink traffic. And it is tracked by subframes which have been implemented for downlink traffic. There is an upward-linked portion of the first in the subframe 1 0. Method (500, 570) of any of the preceding claims. Application of LTE Systems Long-term Evolution 1. Transceiver (600) for use as a control node (110) in cells (130) of cellular communication system (100) by machine. Transmit is adjusted to send and receive traffic in frames (200), where each frame is made up of a number of sub frames (201-210), such subframes are available. For at least an inbound or inbound link traffic. The one Transceiver That have been installed with a (640) path for sending and receiving At least one (420) of the aforementioned subframe in the following three sections: - Part (DWPPTS) that has been utilized for the traffic. Upward Link - Part (GP), which is utilized as a Control Period - Part (UPS), which is utilized for upward link traffic. (600) mounted transceivers (610, 620, 630) for scheduling. Of the period control thereof between the downlink segment and the uplink segment in such a way that The sum of the downlink segment, control period and uplink segment will be Composed of all sub-frame lengths, the transceivers are characterized as Transceiver It is equipped with a path for the interval variation of at least two of the three parts. Of at least one such subframe in order to fit the current system requirements 1 2. The transceiver (600) of claim 11, which is additionally installed via Route (610) ) For obtaining information from external sources in the system Regarding the variation of the aforementioned three sections 1 3. The transceivers (600) of claim 11 or 12 are equipped with a path (640) for transmission to end users in the cell information system. In connection with the time slots of the three Sections 1 4. The transmitter (600) of Clause 10-12, any of which has been adjusted in order to receive Used in the system - TDD Time-split two-way communication, that is, a system that uses a non-dual spectrum so that upward and downlink traffic occurs during the different subframes 1.5. The transceiver (600) of Clause 14 has been adjusted so that it will be applied on the Same frequency for both Inbound and Downlink traffic 1 6. Transmitter (600) of any of Clause 11-13. That have been adjusted in order to receive Application in the system - FDD, half-duplex, split-frequency two-way. So that inbound and inbound traffic for one user and the same person will Occurs in between different sub-frames And on different frequencies 1 7. Transceiver (600) of any Clause 10-16 Where the control period will be one In at least two of these three parts And it was installed with a path (610, 620, 630) for the time period variation compared to at least one of the following parameters: - interference from or with other cells. In the same system - Cell size which determines the maximum round-trip diffusion time, RTT in that cell - Modulation scheme. Modulation that has been implemented for the traffic in that cell 1. 8. The transceiver (600) of claim 17 has been adjusted in order to vary the control period. Compared with interpolation from or with other cells in that plane so that the duration of the control period Will be tuned to at least equal to the propagation time of the signal from at least one node. Controlled in another cell in that system 1 9. Transceiver (600) of any Clause 11-18 That is adjusted for use in one system with an OFD modulation method. Perpendicular frequency divider modulation Has been used in At least one in the direction of upward links and downward links. That have been installed with the (630) path for the designation to At least one of the Inbound Link traffic and the Inbound Link segment in At least one such subframe With the interval corresponding to the integer value of the OFDM symbol in Modulation method 2 0. One of the transceivers of Clause 11-19. Which includes Way for The aforementioned subframe (420) insertion, which is composed of three parts after the subframe (410), has been implemented for downlink traffic. And before the sub-frame (430), which was Be used for upward link traffic There is a downlink section at the first part of the subframe. 2. 1. One of the transceivers of Clause 11-19. Which includes Way for The aforementioned subframe (420) insertion, which has been composed of three parts after the subframe (410), has been implemented for uplink traffic. And before the sub-frame (430), which was Used for downlink traffic There is an upward-linking section at the first in the subframe. 2. 2. Transceiver (600) of Clause 11-21. Long-term evolution 2 3. Transceivers (700) for use as end-user terminals (120) in cellular communication systems (100) by transceivers received Adjustment to send and receive traffic in frames (200), with each frame comprising a number of sub frames (201-210), such sub frames are available. Useful for at least your traffic, inbound or inbound links. The one The transceivers (700) are equipped with a means for transmitting and receiving. At least one of the frames There are a number of such sub-sections as follows: - Part (DWPTS) that is utilized for the traffic. Downlink - Part (GP), which is utilized as a control period - Part (UPS), which is utilized for inbound link traffic. The shuttle (700) was also equipped with a (720) route for scheduling of The control period is maintained between the uplink segment and the downlink segment in a manner that The sum of the downlink segment, control period and uplink segment will be Make up the entire length of the subframe. And along with the route (710) for receiving information From the control node associated with such scheduling And the duration of the three parts, where the transceiver is characterized as a period of at least two of those three parts of at least One such subframe may be variable in order to fit the current system requirements. ----------------------- 1. Method The (500) for use in cellular communication systems (100), where in that system Traffic is sent in multiple frames (200) that each frame is composed of. The first number of sub-frames (201-210) with the second number of those sub-frames are available for at least. Traffic, inbound, or inbound links Either method (500) that has been characterized as (510), one of the aforementioned second number of subframes has been Built to be assembled with At least three (515) of the following part (520) that have been utilized for the upward link traffic (525) that have been exploited for the traffic. Part of the downward link (530) that has been utilized as a control period. Along with the said control period (525) was scheduled during the session. Inbound links and inbound links segment. And according to method (532), the intervals of at least two of these three parts (520,525,530) may be varied in order to suit the requirements. 2. Methods (500, 540) of claim 1 applied to the system - TDD Time-split two-way communication, that is, a system that uses a non-dual frequency spectrum so that the upward link traffic is And an inbound link in at least a certain number of cells in the system is formed during Different subframes 3. Method (500, 540) of claim 2, wherein the traffic, upward links and links The downward tether takes place on the same frequency 4. Method (500,535) of claim 2 that is applied to the system - FDD, half-rate two-way, frequency-dividing two-way communication, so that That traffic, inbound links and links. A downtrend for one user and the same person in at least a certain number of cells in that system will occur. Between different sub frames And on different frequencies 5. Method (500) of any of the preceding claims by the method in which the control period will be One of at least two of those parts of that third. And according to the method Which the control period will be varied (550) over time compared to at least one of the following parameters: - interference from or with other cells in the same system. Or other cells In contiguous systems - The size of the cell, which determines the maximum round-trip diffusion time RTT in that cell - the modulation sheet applied. For the traffic in that cell 6. Method (500,545) of claim 5, according to the method in which the control period (525) would be varied compared to interference from or with other cells in That system so that the duration of the control period That would be generated at least equal to the propagation time of the signal from at least one node. It is controlled in another cell in that system. 7. Method (500) of any of Clause 1-6 According to the method, that system is one that has an OFD modulation method Perpendicular frequency divider modulation Has been used in at least one of the Direction, upward link and downward link, and that contains at least one inbound link traffic. The up and down link segments in the aforementioned second number of sub frames. Was assigned to The period corresponding to the integer value of the ODM symbol in the modulation method 8. Method (500) of any of the preceding clause according to the subframe method (420) as follows: Said, which has been created to include At least three parts Has been inserted After the subframe (410) has been implemented for downlink traffic. And it was tracked with subframe (430) which was introduced for uplink traffic. Along with the 9. Method (500) of Clause 1-8, according to the method by which that subframe (410) was created for To be assembled with At least three parts Has been inserted after Subframe that has been implemented for uplink traffic. And was tracked with sub frames Which are used for downlink traffic. Along with the inbound links that are part. First in the aforementioned subframe 1 0. Method (500,570) of any of the preceding claims. Long-Term Evolution LTE Systems 1. Transceivers (600) for use as a control node (110) in cells (130) of cellular communication systems (100). Send that is optimized to send and receive traffic in frames (200) that each frame is composed of. The first number of sub-frames (201-210) and with the second number of frames. Such sub-links are available for at least uplink or downlink traffic. The one A transceiver that has been characterized as That was installed with a trajectory. Way (640) for sending and receiving At least one (420) of the aforementioned second number of sub-frames in At least three of the following are: a portion (UPS) that has been utilized for the upward-linked traffic (DWPS) which is Derived utilization for a portion of downlink traffic (GPs), which has been utilized over a period of control. (600) mounted transceivers (610, 620, 630) for scheduling. And for the interval variation of at least two of those three sections in order to suit the Current System Requirements 1. 2. The transceivers (600) of claim 11 are extensively installed via a means (610) for receiving information from an external source in the system. In connection with the variation of the said three sections 1 3. Transmitter (600) of any Clause 11 or 12 That was installed with a (640) path for transmission to the user in the system cell. 1 4. The transceiver (600) of Clause 10-12, which has been adjusted in order to receive Used in the system - TDD Time-split two-way communication, that is, a system that uses a non-dual spectrum so that upward and downlink traffic occurs during the different subframes 1.5. The transceiver (600) of Clause 14 has been adjusted so that it will be applied on the Same frequency for both Inbound and Downlink traffic 1 6. Transmitter (600) of any of Clause 11-13. That have been adjusted in order to receive Adopt a half-rate two-way FDD system. Two-way, frequency-sharing, so that the upward and downward link traffic for one user and the same person will occur in Between different sub frames And on different frequencies 1 7. Transceiver (600) of any Clause 10-16 With control periods will be one of At least two of those parts of that three And it was installed with a path (610, 620, 630) for the time period variation compared to at least one of the following parameters: - interference from or with other cells. In the same system - The size of the cell which determines the diffusion time of maximum RTT in that cell - Modulation scheme. Lets that have been introduced for the traffic in that cell 1. 8. The transceivers (600) of claim 17 have been adjusted to vary the control period. Compared with interpolation from or with other cells in that plane so that the duration of the control period Will be tuned to at least equal to the propagation time of the signal from at least one node. Controlled in another cell in that system 1 9. Transceiver (600) of any Clause 11-18 That is adjusted for use in one system with an OFD modulation method. Perpendicular frequency divider modulation Has been used in At least one in the direction of upward links and downward links. That have been installed with the (630) path for the designation to At least one of the Inbound Link traffic and the Inbound Link segment in The aforementioned second number of sub frames. With the interval corresponding to the integer value of the symbol. OFDM in modulation method 2 0. Any of Clause 11-19 Transponder Which includes Way for The aforementioned subframe insertion (420) which has been included At least three parts after the subframe (410) have been introduced for downlink traffic. And before the subframe (430) which has been implemented for uplink traffic. Along with the inbound links that are part. First in the aforementioned subframe 2 1. One of the receipts of Clause 11-19. Which includes Way for The aforementioned subframe insertion (420) which has been included At least three parts after the subframe (410) have been introduced for uplink traffic. And before the subframe (430), which has been implemented for downlink traffic. Along with the inbound links that are part. First in the aforementioned subframe 2 2.Transmitter (600) of any of Clause 11-21. Applied to the LTE system, long-term evolution 2 3. The transceiver (700) for use as a user terminal (120) in cellular communication systems (100) .The transceiver is adjusted in order to send and receive traffic in the frame. (200) that each frame is assembled The first number of subframes (201-210) and, along with the second number of such sub frames, are available for at least upward or downlink traffic. The one The transceivers (700) are characterized by that That got installed With means for sending and receiving At least one of the aforementioned second number of sub frames in the At least three of them are as follows: Part (UPS) that is utilized for the upward link traffic (DWPTS) which receives Optimization for the Part of Downlink (GP) traffic, which has been utilized as a control over time. The transceivers (700) are also installed with the (720) path for section scheduling. The period of control is held between the uplink segment and the downlink segment. And by means of (710) for obtaining information from control nodes in connection with such scheduling. And the same as The time of the three parts