IEEE C802.16mUL -08_705 Project IEEE 802.16 Broadband Wireless Access Working Group <http://ieee802.org/16> Title Uplink Power Control of 16m Date Submitted 2008-07-07 Source(s) JueJun Liu Xuehuan Wang Tao Qian Jin Yu Jianfei Tong Jia Lin Huawei Technologies Co., Ltd. Xin Su Tsinghua University Re: E-mail:linjia@huawei.com E-mail: suxin@mail.tsinghua.edu.cn IEEE 802.16m-08/024: Call for Comments and Contributions on Project 802.16m System Description Document (SDD). Target topic: “Power control”. Abstract Proposal for Soft Frequency Reuse for interference mitigation. Purpose For review and discussion in the TGm Notice Release Patent Policy This document does not represent the agreed views of the IEEE 802.16 Working Group or any of its subgroups. It represents only the views of the participants listed in the “Source(s)” field above. It is offered as a basis for discussion. It is not binding on the contributor(s), who reserve(s) the right to add, amend or withdraw material contained herein. The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE 802.16. The contributor is familiar with the IEEE-SA Patent Policy and Procedures: <http://standards.ieee.org/guides/bylaws/sect6-7.html#6> and <http://standards.ieee.org/guides/opman/sect6.html#6.3>. Further information is located at <http://standards.ieee.org/board/pat/pat-material.html> and <http://standards.ieee.org/board/pat>. Uplink Power Control of 16m Juejun Liu, Xuehuan Wang, Tao Qian, Jin Yu, Jianfei Tong, Jia Lin, Xin Su 1 Introduction Traditional transmission power control (TPC) is a key technique to achieve link adaptation. In OFDMA system, 1 IEEE C802.16mUL -08_705 TPC is considered as a method for decreasing interference to other users in neighbor sector. This paper presents TPC schemes for 16m uplink physical channels. 2 TPC for UL data channel Open loop TPC shall be supported for the UL channel with an initial value for initial data transmission. BS shall broadcast specific system parameters in the BCH for open loop TPC adjustment, e.g. BS transmission power and UL noise and interference level of each sub zone etc. MS can initialize its UL transmission power according to these specific parameters and UL resource allocation. The BS shall be capable of providing accurate power measurements of the received signal from MS. This value can then be compared with a target level, and the resulting offset can be feedbacked to the MS through UL power control signaling. For interference mitigation, MS shall also adjust its UL data transmission power according to overload indication of sub zone from neighbor sector. 2.1 Assignment of Transmission Powers of New and Retransmitted Packets BS may assign transmission power of UL new packets and retransmitted packets through DL control channel. Assigned transmission power is associated with assigned MCS and target BLER. For providing improved transmission performance, power boost can be used for HARQ retransmission. BS can negotiate different power boost value for different service with MS to provide different requirements of service when creating service connection. 1 bit power boost indicator can be included in the UL resource assignment message to indicate whether to use power boosting for UL HARQ retransmission. 2.2 TPC procedure The reference transmission power of the UL data channel is decided by MS via open loop adjustment. Then, the MS can be informed the initial transmission power offset associated with assigned MCS and target SNR using the downlink control channel. Transmission power of MS is equal to reference transmission power plus initial transmission power offset. Neighbor sectors measure the received interference power over multiple non-overlapping frequency partitions which is called sub zone. If the interference power level exceeds the pre-decided threshold, neighbor sectors will transmit an overload indicator signal per sub zone. BS can broadcast multiple overload indicators for multiple sub zones simultaneously. Therefore, the MS transmits the data with the decreasing transmission power by one step size as long as neighbor sector feedbacks a “Overload” signal, which indicates that the transmission power should be reduced. Otherwise, MS may transmit the data with the increasing transmission power by one step size. MS shall select the overload indicator signal from the frequency partition, over which UL resources are assigned to MS. Through above procedure, inter-sector interference can be mitigated effectively. BS also may correct transmission power of MS through MAC management. MS shall set its transmission power 2 IEEE C802.16mUL -08_705 according to correct value. 2.3 Measurement of Interfering Power from neighbor sector Each sector shall estimate the average amount of interference of entire bandwidth relative to thermal noise power (referred to as IOT of entire bandwidth) experienced by this sector from terminals in other sectors, where the thermal noise level is measured during the Uplink Silence Interval. Meanwhile, each sector shall estimate the average amount of interference of each sub zone relative to thermal noise power (referred to as IOT of sub zone) experienced by this sector from terminals in other sectors. Each sector broadcasts a bitmap indication of its interference measurements that can be used by MSs in other sectors. For simplicity, the following description assumes that a single load indicator bit is used for providing interference information. Each sector shall set its average overload indication (OI) of entire bandwidth or average overload indication of sub zone as follows: OI m , s (n) 1, if IoTmeasure,m, s (n) IoTt arg et m: sector index s: sub zone index n: measure interval Illustration of sub zone: sub zone1 sub zone2 sub zone3 System Bandwidth 10MHz sub zone4 AOI: Average OI over entire bandwidth SOI: Average OI over sub zone sub zone5 OI transmission format AOI sub zone6 SOI1 SOI2 SOI3 SOI4 SOI5 SOI6 IoT per sub zone or IoT over entire bandwidth computation: IoTs I k k ,s 02 02 02 Ws N 0 I k ,s denotes the thermal noise power for sub zone s denotes neighbor sectors interference power over sub zone s. k 3 IEEE C802.16mUL -08_705 k: interfering sector index OI over entire bandwidth can be used as power adjustment information for these MSs, which operate in hopping over entire bandwidth mode. OI over sub zone can be used as power adjustment information for these MSs, which operate in hopping over local sub zone mode. Different OI information can provide accurate interference estimate for different hop mode. 2.4 Transmission of power control indication 2.4.1 Transmission of initial transmission power value Initial transmission power value shall be included UL resource assignment message, which is transmitted over DL control channel within one subframe. 2.4.2 Transmission of power correction value BS may send dedicated power control MAC management message to correct transmission power of MS. 2.4.3 Transmission of Overload indicator DL overloads indicator channel carries overload indicator information for each sub zone and entire bandwidth. they are broadcast over the air link every super frame or frame or sub frame (FFS). DL overloads indicator channel has larger coverage than DL traffic and penetrates far into neighbor sector. Illustration is as following: 4 IEEE C802.16mUL -08_705 Sector 2 Sector 1 Traffic coverage MS UL Data Overload Indicator coverage Sector 3 Overload indicator from neighbor sector 3 TPC for UL control channel The reference transmission power of the UL control channel is decided by MS via open loop adjustment. Initial transmission power of UL control channels shall be equal to reference power plus power offset. Different power offset setting shall be used for different UL control channels. 3.1 TPC for UL initial ranging channel Transmission power of UL ranging channel is equal to reference transmission power plus power offset of UL ranging channel. Power offset of UL initial ranging channel is FFS. During UL initial ranging, a pre-determined power step up and wrap back scheme shall be used. 5 IEEE C802.16mUL -08_705 3.2 TPC for UL CQI channel Transmission power of UL CQI channel is equal to reference transmission power plus power offset of UL CQI channel. Power offset of UL CQI channel is FFS. 3.3 TPC for UL ACK channel Transmission power of UL ACK channel is equal to reference transmission power plus power offset of UL ACK channel. Power offset of UL ACK channel is FFS. 3.4 TPC for UL bandwidth request channel Transmission power of UL BR channel is equal to reference transmission power plus power offset of UL BR channel. Power offset of UL BR channel is FFS. 4 Conclusion This paper presented TPC schemes for 16m uplink physical channels. In particular, we propose applying the overload indicator of sub zone and overload indicator of entire bandwidth from surrounding neighbor sectors to control the transmission power of MS for mitigating inter-sector interference. 5 Proposed Text The following text is proposed to be captured in the IEEE 802.16m system description document (SDD) [1]. ================================= Start of Proposed Text ============================== X.x.x Uplink Power Control Add content of previous chapter 2 and chapter 3 into this section ==================================== End of the Text ================================ 6 References [1] 80216m-08_003r2 SDD 6