Bi-directional packet data transmission system and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04J-003/24
H04L-029/06
H04W-028/18
H04L-029/08
H04W-028/06
H04W-028/14
H04W-080/00
출원번호
US-0289910
(2008-11-06)
등록번호
US-9635141
(2017-04-25)
우선권정보
KR-10-2002-0048261 (2002-08-14)
발명자
/ 주소
Yi, Seung-June
Lee, Young-Dae
Lee, So-Young
출원인 / 주소
LG Electronics Inc.
대리인 / 주소
Dentons US LLP
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
A bidirectional packet data transmission system for a packet data transmission between a terminal and a radio access network includes an uplink resource and a downlink resource which are independently set. Memory resources can be effectively managed even in a packet data transmission service with th
A bidirectional packet data transmission system for a packet data transmission between a terminal and a radio access network includes an uplink resource and a downlink resource which are independently set. Memory resources can be effectively managed even in a packet data transmission service with the asymmetrical structure such that the packet amount for the downlink is much greater than the packet amount for the uplink, or the packet amount for the uplink is much greater than the packet amount for the downlink.
대표청구항▼
1. In a mobile communication system, a method comprising: receiving, by a network, mobile terminal capacity associated with a robust header compression (ROHC) scheme;configuring, by the network, at least uplink parameter and at least one downlink parameter relating to the ROHC scheme based on the mo
1. In a mobile communication system, a method comprising: receiving, by a network, mobile terminal capacity associated with a robust header compression (ROHC) scheme;configuring, by the network, at least uplink parameter and at least one downlink parameter relating to the ROHC scheme based on the mobile terminal capacity; andtransmitting, by the network, the configured at least one uplink parameter and the at least one downlink parameter, wherein the at least one uplink parameter comprises an uplink Max_CID informing of a maximum number of contexts, which is used for a compressor in a mobile terminal and the at least one downlink parameter comprises a downlink Max_CID informing of a maximum number of contexts for a decompressor in the mobile terminal,wherein the at least one downlink parameter and the at least one uplink parameter comprise a first profile parameter and a second profile parameter different from the first profile parameter, andwherein the first profile parameter and the second profile parameter are used for the decompressor in the mobile terminal and the compressor in the mobile terminal with respect to the types of packets supported by the decompressor in the mobile terminal and the compressor in the mobile terminal. 2. The method of claim 1, further comprising: configuring, by the network, at least one additional uplink parameter, wherein the at least one additional uplink parameter comprises a Packet Sized Allowed parameter; andtransmitting, by the network, the configured at least one additional uplink parameter. 3. The method of claim 1, further comprising: configuring, by the network, at least one additional downlink parameter, wherein the at least one additional downlink parameter comprises a Reverse Decompression Depth parameter; andtransmitting, by the network, the configured at least one additional downlink parameter. 4. In a mobile communication system, a mobile terminal comprising: an entity in a packet data convergence protocol (PDCP) layer adapted to perform header compression and/or decompression; andan entity in a radio resource control (RRC) layer adapted to: transmit mobile terminal capacity associated with a robust header compression (ROHC) scheme;receive at least one uplink parameter and at least one downlink parameter from a network, the at least one uplink parameter and the at least one downlink parameter being configured by the network based on the mobile terminal capacity; andconfigure the received at least one uplink parameter and the received at least one downlink parameter for the entity in the PDCP layer, wherein the at least one uplink parameter comprises an uplink Max_CID informing of a maximum number of contexts for a compressor in a mobile terminal and the at least one downlink parameter comprises a downlink Max_CID informing of a maximum number of contexts for a decompressor in the mobile terminal,wherein the at least one downlink parameter and the at least one uplink parameter comprise a first profile parameter and a second profile parameter different from the first profile parameter, andwherein the first profile parameter and the second profile parameter are used for the decompressor in the mobile terminal and the compressor in the mobile terminal with respect to the types of packets supported by the decompressor in the mobile terminal and the compressor in the mobile terminal. 5. The mobile terminal of claim 4, wherein the entity in the RRC layer is further adapted to configure at least one additional uplink parameter, the at least one additional uplink parameter comprising a Packet Sized Allowed parameter. 6. The mobile terminal of claim 4, wherein the entity in the RRC layer is further adapted to configure at least one additional downlink parameter, the at least one additional downlink parameter comprising a Reverse Decompression Depth parameter. 7. In a mobile communication system, a mobile terminal comprising: a radio resource controller of the mobile terminal transmitting mobile terminal capacity to a network and receiving at least one uplink parameter and at least one downlink parameter from the network;a compressor of the mobile terminal performing header compression based on the at least one uplink parameter transferred from the radio resource controller, the at least one uplink parameter being configured by the network based on the mobile terminal capacity; anda decompressor of the mobile terminal performing header decompression based on the at least one downlink parameter transferred from the radio resource controller, the at least one downlink parameter being configured by the network based on the mobile terminal capacity,wherein the at least one uplink parameter comprises an uplink Max_CID informing of a maximum number of contexts for a compressor in the mobile terminal and the at least one downlink parameter comprises a downlink Max_CID informing of a maximum number of contexts for a decompressor in the mobile terminal,wherein the at least one downlink parameter and the at least one uplink parameter comprise a first profile parameter and a second profile parameter different from the first profile parameter, andwherein the first profile parameter and the second profile parameter are used for the decompressor of the mobile terminal and the compressor of the mobile terminal with respect to the types of packets supported by the decompressor of the mobile terminal and the compressor of the mobile terminal. 8. The mobile terminal of claim 7, wherein the compressor of the mobile terminal performs header compression based on at least one additional uplink parameter transferred from the radio resource controller, wherein the additional uplink parameter comprises a Packet Sized Allowed parameter. 9. The mobile terminal of claim 7, wherein the header compression involves a robust header compression (ROHC) scheme. 10. The mobile terminal of claim 7, wherein the decompressor of the mobile terminal performs header decompression based on at least one additional downlink parameter transferred from the radio resource controller, wherein the at least one additional downlink parameter comprises a Reverse Decompression Depth parameter.
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