TCP performance degrades when end-to-end connections extend over wireless links which are characterized by high Bit Error Rate and intermittent connectivity. Such degradation is mainly accounted for TCP’s unnecessary...TCP performance degrades when end-to-end connections extend over wireless links which are characterized by high Bit Error Rate and intermittent connectivity. Such degradation is mainly accounted for TCP’s unnecessary congestion control actions while attempting TCP loss recovery. Several independent link loss recovery approaches are proposed by researchers to reduce number of losses visible at TCP. In this paper we first presented a survey of loss mitigation techniques at wireless link layer. Secondly performance evaluation for TCP through Type 0 Automatic Retransmission Request mechanism in erroneous Wireless LAN is presented. In particular, simulations are performed taking into account the wireless errors introduced over IEEE 802.11 link using a well-established 2-State Markov model. TCP performance is evaluated under different settings for maximum link retransmissions allowed for each frame. Simulation results show that, link retransmission improves TCP performance by reducing losses perceived at TCP sender. However, such improvement is often associated with adverse effect on other TCP parameters that may cost a lot in return under extreme network conditions. In this paper an attempt is made to observe impact of link retransmissions on the performance of multiple TCP flows competing with each other. The analysis presented in this paper signifies the scope for maximizing TCP’s throughput at the least possible cost.展开更多
This paper utilizes the cross-layer architecture to implement adaptive resource allocation in Orthogonal Frequency Division Multiple Access (OFDMA) based on the broadband wireless access system. According to the cross...This paper utilizes the cross-layer architecture to implement adaptive resource allocation in Orthogonal Frequency Division Multiple Access (OFDMA) based on the broadband wireless access system. According to the cross-layer architecture, the information in link layer is used for adaptive resource allocation in OFMDA. A new cross-layer adaptive resource allocation algorithm is developed which can guarantee the users to be in minimum average waiting time in link-layer and get the better spectrum utilization. Numerical results show that our scheme is appealing and can get about half of average waiting time less and 0.5 bps/Hz spectrum utilization more than the scheme in IEEE802.16a.展开更多
Under the background of intelligent transportation application, QoS for various services is different in wireless com-munication. Based on the MAC layer protocol, this paper analyzes the QoS in IEEE 802.11 MAC protoco...Under the background of intelligent transportation application, QoS for various services is different in wireless com-munication. Based on the MAC layer protocol, this paper analyzes the QoS in IEEE 802.11 MAC protocol framework, and proposes a new design of a Differentiation Enhanced Adaptive EDCA (enhanced distribution channel access) approach. The proposed approach adjusts the window zooming dynamically according to the collision rate in sending data frames, makes random offset, and further distinguishes the competition parameters of the data frames that have the same priority, so as to reduce the conflict among the data frames, and improve the channel utilization. Experiments with different service cases were conducted. The simulation results show that: comparing with the conventional EDCA method, the proposed approach can ensure that high priority services are sent with priority, and the overall QoS is highly improved.展开更多
在具有OFDM物理层的无线Mesh网络上,结合信道、自适应调制与编码(Adaptive Modulation and Coding,AMC)技术、有限缓冲区数目和业务特性等,提出具有服务质量(Quality of Service,QoS)保证的、跨层的多业务接入控制和调度算法。接入控制...在具有OFDM物理层的无线Mesh网络上,结合信道、自适应调制与编码(Adaptive Modulation and Coding,AMC)技术、有限缓冲区数目和业务特性等,提出具有服务质量(Quality of Service,QoS)保证的、跨层的多业务接入控制和调度算法。接入控制利用AMC优化资源分配并保证业务平均性能,达到长期公平;基于业务量滑动平均和信噪比门限切换的调度,在保持长期公平性的同时,不仅有效地利用业务在信道传输上的差异,降低QoS业务的延迟,提高系统吞吐率,还可根据需要调节业务的延迟,保证业务不同的延迟要求,克服了业务切换造成的性能不公平,达到短期公平。分析和仿真表明算法是准确可行的,达到了设计目标,并具有实现简单、适应性强等特点。展开更多
随着无线通信技术的发展,基于GPRS(General Packet Radio Service)的移动应用系统如雨后春笋般快速发展了起来,但另一方面,GPRS平台本身的安全漏洞也给各种应用带来了不少的麻烦,移动通信环境下的信息安全问题日益突出。提出了一种GPRS...随着无线通信技术的发展,基于GPRS(General Packet Radio Service)的移动应用系统如雨后春笋般快速发展了起来,但另一方面,GPRS平台本身的安全漏洞也给各种应用带来了不少的麻烦,移动通信环境下的信息安全问题日益突出。提出了一种GPRS接入方案,并且针对信息安全问题,综合运用VPN、动态密码技术、访问认证和开发应用安全等技术手段,提出了相应的解决方案,实践表明,系统达到了预期的目标。展开更多
文摘TCP performance degrades when end-to-end connections extend over wireless links which are characterized by high Bit Error Rate and intermittent connectivity. Such degradation is mainly accounted for TCP’s unnecessary congestion control actions while attempting TCP loss recovery. Several independent link loss recovery approaches are proposed by researchers to reduce number of losses visible at TCP. In this paper we first presented a survey of loss mitigation techniques at wireless link layer. Secondly performance evaluation for TCP through Type 0 Automatic Retransmission Request mechanism in erroneous Wireless LAN is presented. In particular, simulations are performed taking into account the wireless errors introduced over IEEE 802.11 link using a well-established 2-State Markov model. TCP performance is evaluated under different settings for maximum link retransmissions allowed for each frame. Simulation results show that, link retransmission improves TCP performance by reducing losses perceived at TCP sender. However, such improvement is often associated with adverse effect on other TCP parameters that may cost a lot in return under extreme network conditions. In this paper an attempt is made to observe impact of link retransmissions on the performance of multiple TCP flows competing with each other. The analysis presented in this paper signifies the scope for maximizing TCP’s throughput at the least possible cost.
基金Supported by the National Natural Science Foundation of China (No.60072048) the Doctoral Program Fund of Ministry of Education of China (No.20010561007).
文摘This paper utilizes the cross-layer architecture to implement adaptive resource allocation in Orthogonal Frequency Division Multiple Access (OFDMA) based on the broadband wireless access system. According to the cross-layer architecture, the information in link layer is used for adaptive resource allocation in OFMDA. A new cross-layer adaptive resource allocation algorithm is developed which can guarantee the users to be in minimum average waiting time in link-layer and get the better spectrum utilization. Numerical results show that our scheme is appealing and can get about half of average waiting time less and 0.5 bps/Hz spectrum utilization more than the scheme in IEEE802.16a.
文摘Under the background of intelligent transportation application, QoS for various services is different in wireless com-munication. Based on the MAC layer protocol, this paper analyzes the QoS in IEEE 802.11 MAC protocol framework, and proposes a new design of a Differentiation Enhanced Adaptive EDCA (enhanced distribution channel access) approach. The proposed approach adjusts the window zooming dynamically according to the collision rate in sending data frames, makes random offset, and further distinguishes the competition parameters of the data frames that have the same priority, so as to reduce the conflict among the data frames, and improve the channel utilization. Experiments with different service cases were conducted. The simulation results show that: comparing with the conventional EDCA method, the proposed approach can ensure that high priority services are sent with priority, and the overall QoS is highly improved.
文摘在具有OFDM物理层的无线Mesh网络上,结合信道、自适应调制与编码(Adaptive Modulation and Coding,AMC)技术、有限缓冲区数目和业务特性等,提出具有服务质量(Quality of Service,QoS)保证的、跨层的多业务接入控制和调度算法。接入控制利用AMC优化资源分配并保证业务平均性能,达到长期公平;基于业务量滑动平均和信噪比门限切换的调度,在保持长期公平性的同时,不仅有效地利用业务在信道传输上的差异,降低QoS业务的延迟,提高系统吞吐率,还可根据需要调节业务的延迟,保证业务不同的延迟要求,克服了业务切换造成的性能不公平,达到短期公平。分析和仿真表明算法是准确可行的,达到了设计目标,并具有实现简单、适应性强等特点。
文摘随着无线通信技术的发展,基于GPRS(General Packet Radio Service)的移动应用系统如雨后春笋般快速发展了起来,但另一方面,GPRS平台本身的安全漏洞也给各种应用带来了不少的麻烦,移动通信环境下的信息安全问题日益突出。提出了一种GPRS接入方案,并且针对信息安全问题,综合运用VPN、动态密码技术、访问认证和开发应用安全等技术手段,提出了相应的解决方案,实践表明,系统达到了预期的目标。