SP: Collaborative Research: Multiple Antenna Multiple Appliances (MAMA) Wireless Networks: A pervasive Technology for the Home and Workplace

SP：协作研究：多天线多设备 (MAMA) 无线网络：家庭和工作场所的普遍技术

• 批准号: 0338788
• 负责人: Alexander Haimovich
• 金额: $ 61.54万
• 依托单位: New Jersey Institute of Technology
• 依托单位国家: 美国
• 项目类别: Continuing grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-01-01 至 2007-12-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0338788&HistoricalAwards=false
• 关键词: SP; Collaborative; Research; Multiple; Antenna

Two rather different forms of wireless communications, one already established and showing dramatic growth and the other only on the horizon, have the potential to impact dramatically the nature of wireless communications in the home and workplace. One is the increasingly high-speed information link typified by 802.11x/802.15, first applied to broadband internet access but moving toward video and audio entertainment distribution as well, and the other is the sensor network, which can offer security, medical monitoring, and a variety of other important services. Unfortunately these usages are largely incompatible. High-rate applications will generally have adequate power sources for both transmission and processing purposes. Service interruptions have the potential to be annoying, but they are not, in general, threatening to health or safety. Sensor networks, on the other hand, involve messages which are generally short and infrequent, but which may have a high level of importance (consider intrusion or fire alarms, or childmonitors). Moreover, such sensors (and less critical environmental sensors) often require placement that is independent of permanent power sources, and thus require energy efficient operation.Normally, such disparate requirements would suggest the separation of these applications into different frequency bands, but the emergence of unlicensed bands suggests that designers will not have the option of such comfortable isolation. It is therefore important to consider how such applications may coexist within the same frequency space. In particular, one may speculate that the potential for such coexistence would be enhanced within the private space that we find in homes and businesses - a volume in which radio transmission may be beneficially controlled by a single entity, and in which intra-system interference dominates. It is the premise of this proposal that solutions exist that can allow a wide variety of disparate applications to coexist efficiently within such a constrained, but controlled space. In particular, the researchers believe that coordinated usage characterized by multiple antennas and multiple appliances (MAMA) represents a new type of network, and offers significant opportunities to interwork such disparate systems efficiently.To accommodate this mixed set of bit-rate and energy requirements, the researchers propose a comprehensive approach that encompasses link layer, MAC layer and cross-layer techniques. At the link layer, the research proposes:-Flexible bandwidth modulation formats and spatial multiplexing and diversity. With the device transmission rate set by the application, the signaling bandwidth of a device is optimized versus a power level determined either by interference avoidance considerations or by energy constraints. We will argue that this leads to ultra-wideband (UWB) modulation characterized by low-signal-to-noise-ratio (low-SNR).-Multiple transmit and receive antennas to be utilized in several modes: (1) in multi-input multi-output (MIMO) mode, the channel is harnessed to increase bit-rate; (2) in diversity mode, spatial diversity enhances power efficiency; (3) in beamforming mode, transmitter antennas direct energy away from other devices and networks. Consistent with UWB signaling, our research will focus on the low-SNR regime for MIMO systems.Since link layer techniques cannot address all the complex requirements of MAMA networks, the researchers propose a cross-layer approach that takes into account the distributed, non-cooperative nature of the networks to achieve a more efficient use of the network power and bandwidth resources. The cross-layer approach consists of two components:-Game theoretic methods: based on utility functions that depend on transmitted power and throughput, usersadapt their transmitters and receivers to maximize their individual utilities.-"Thin" MAC layer protocols: for given physical layer transmitters and receivers, incremental redundancy hybrid ARQ provides non-collaborative rate adaptation and spectrum resource sharing.The proposed space-frequency-cross-layer approach to designing wireless networks is distinctly different from conventional network design where data rate is maximized for a given bandwidth and power, generally ignoring intra- and inter-network interference. The juxtaposition of UWB, MIMO and cross-layer techniques in MAMA networks spans a multidimensional signal space that will create a rich set of research problems and network architectures.Broader Impact: The work proposed here (if successful) will make possible the coexistence of new high-speedwireless applications with emerging sensor networks at home and in the workplace. Although the discussion focuses on the home and work environments, it should be understood that the applications are more widespread - to hospitals, factories, and some robotic scenarios. MAMA networks also provide an exciting platform for the educational goals of the academic institutions, including activities for both undergraduates and graduate students.The research institutions involved in this proposal are Princeton University, the New Jersey Institute of Technology, and Rutgers University, and The Wireless Communications Dept., Bell Labs, Lucent. The work will be done under the auspices of the N.J. Center for Wireless Telecommunications (NJCWT). The NJCWT is an inter-institutional research and educational organization sponsored and funded by the N.J. Commission on Science and Technology.

两种截然不同的无线通信形式，一种已经建立并显示出巨大的增长，另一种才刚刚出现，有可能对家庭和工作场所无线通信的性质产生巨大影响。一是以802.11x/802.15为代表的日益高速的信息链路，首先应用于宽带互联网接入，但也向视频和音频娱乐分发方向发展；二是传感器网络，可以提供安全、医疗监控和各种其他重要服务。不幸的是，这些用法在很大程度上是不兼容的。高速率应用通常有足够的电源用于传输和处理目的。服务中断可能会令人烦恼，但一般不会对健康或安全构成威胁。另一方面，传感器网络涉及的消息通常较短且不频繁，但可能具有很高的重要性（考虑入侵或火灾警报或儿童监视器）。此外，此类传感器（以及不太重要的环境传感器）通常需要独立于永久电源的放置，因此需要节能运行。通常，这种不同的要求建议将这些应用分为不同的频段，但未经许可的乐队表明设计师将无法选择如此舒适的隔离。因此，重要的是要考虑这些应用如何在同一频率空间中共存。特别是，人们可能会推测，这种共存的潜力将在我们在家庭和企业中发现的私人空间内得到增强——在这个空间中，无线电传输可以由单个实体有利地控制，并且系统内干扰占主导地位。 。该提案的前提是存在可以允许各种不同的应用程序在这样一个受限但受控的空间内有效共存的解决方案。特别是，研究人员认为，以多个天线和多个设备（MAMA）为特征的协调使用代表了一种新型网络，并为有效地互连这些不同的系统提供了重要机会。为了适应这种混合的比特率和能量要求，研究人员提出了一种涵盖链路层、MAC 层和跨层技术的综合方法。在链路层，研究提出： - 灵活的带宽调制格式以及空间复用和分集。通过应用程序设置的设备传输速率，设备的信令带宽相对于由干扰避免考虑或能量限制确定的功率水平得到优化。我们认为，这会导致以低信噪比（低SNR）为特征的超宽带（UWB）调制。 - 多个发射和接收天线可用于多种模式：（1）在多模式中输入多输出（MIMO）模式，利用信道来提高比特率； (2)在分集模式下，空间分集提高了功率效率； (3) 在波束成形模式下，发射机天线将能量引导远离其他设备和网络。与 UWB 信令一致，我们的研究将重点关注 MIMO 系统的低 SNR 机制。由于链路层技术无法满足 MAMA 网络的所有复杂要求，因此研究人员提出了一种跨层方法，该方法考虑了分布式、非网络的协作性质，以实现更有效地利用网络功率和带宽资源。跨层方法由两个部分组成： - 博弈论方法：基于取决于传输功率和吞吐量的效用函数，用户调整其发射器和接收器以最大化其各自的效用。 - “瘦”MAC 层协议：对于给定的物理层发射机和接收机、增量冗余混合 ARQ 提供非协作速率自适应和频谱资源共享。所提出的用于设计无线网络的空频跨层方法明显不同于传统网络设计，传统网络设计在给定带宽和数据速率下最大化数据速率。功率，一般忽略网络内和网络间的干扰。 MAMA 网络中 UWB、MIMO 和跨层技术的并置跨越了多维信号空间，这将产生一系列丰富的研究问题和网络架构。 更广泛的影响：这里提出的工作（如果成功）将使新的共存成为可能家庭和工作场所中具有新兴传感器网络的高速无线应用。虽然讨论集中在家庭和工作环境，但应该理解的是，应用范围更广泛——医院、工厂和一些机器人场景。 MAMA 网络还为学术机构的教育目标提供了一个令人兴奋的平台，包括本科生和研究生的活动。参与该提案的研究机构包括普林斯顿大学、新泽西理工学院、罗格斯大学和无线网络朗讯贝尔实验室通信部。这项工作将在新泽西无线电信中心 (NJCWT) 的支持下完成。 NJCWT 是一个由新泽西州科学技术委员会赞助和资助的机构间研究和教育组织。