Sponsored by the IEEE Communications Society Indonesia Chapter, APWiMob has a strong foundation of bringing together industry and academia. In 2014, Bali will become the wireless foundation by hosting APWiMob 2014. The conference will include technical sessions, tutorials, and technology and business panels. You are invited to submit papers in all areas of wireless communications and mobile technologies, networks, services, and applications, please kindly submit the papers to http://edas.info/N16319. Potential topics include, but are not limited to:<br>Track 1: PHY and Fundamentals<br>Advanced modulation schemes<br>Antennas, beamforming, multi–antenna signal processing<br>Channel capacity estimation and equalization<br>Channel measurement, modeling, and characterization<br>Cognitive and green radio<br>Cooperative communications<br>Equalization, synchronization, channel estimation<br>Information–theoretic aspects of wireless communications<br>Interference characterization, cancellation, multiuser detection and mitigation<br>Iterative techniques<br>Modulation, coding, diversity<br>Multihop and cooperative communications<br>OFDM, CDMA, spread spectrum<br>Physical layer designs for WLAN, WPAN, and WBAN<br>Physical layer network coding and security<br>Power efficient communications<br>Propagation models for high frequency channels<br>RF propagation studies<br>Signal processing for wireless communications<br>Single and multi–user MIMO<br>Source and channel coding<br>Space–time coding, MIMO, adaptive antennas<br>Ultra–wideband and gigabit wireless communications<br>Vehicular communications<br>Wireless localization and tracking techniques<br>Track 2: MAC and Cross–Layer Design<br>Adaptability and reconfigurability<br>Adaptive and cognitive MACs<br>B3G/4G Systems, WiMAX, WLAN, WPAN<br>Cognitive and cooperative MAC<br>Collaborative algorithms<br>Cross–layer design, cross–layer security<br>Cross–layer designs involving MAC<br>Delay tolerant MAC designs<br>Implementation of testbeds and prototypes<br>Information–theoretical approaches to MAC designs<br>Joint access and backhaul scheduler designs<br>Joint MAC and networking layer designs<br>MAC for low power embedded networks<br>MAC for mesh, ad hoc, relay, and sensor networks<br>MAC for mobile and vehicular ad hoc networks<br>MAC in 4G and future mobile networks<br>Multiple access techniques<br>Network information theory<br>QoS provisioning in MAC<br>Radio resource management, allocation, and scheduling<br>Reconfigurable MACs<br>Routing and QoS scheduling<br>Scheduler for cellular macro–, pico– and femto– systems<br>Scheduler for cooperative systems<br>Scheduler for relay systems<br>Security issues in MAC designs<br>Software defined radio, RFID<br>Time–critical MAC designs<br>Wireless MAC protocols: design and analysis<br>Track 3: Mobile and Wireless Networks<br>Body area networks<br>Capacity, Throughput, Outage, Coverage<br>Cognitive radio networks<br>Congestion and Admission Control<br>Congestion, load and admission control<br>Dynamic spectrum management<br>Future wireless Internet<br>Green wireless networks<br>Internet of things<br>Interworking Heterogeneous Wireless/Wireline Networks<br>Localization for Wireless Networks<br>Location dependent networks<br>Mesh, Relay, Sensor and Ad Hoc Networks<br>Mobile and Wireless IP<br>Mobile computing<br>Mobility, location, and handoff management<br>Multi–hop and relay networks<br>Multimedia QoS and Traffic Management<br>Network architectures<br>Network Estimation and Processing Techniques<br>Performance of E2E Protocols over Wireless Networks<br>Proxies and Middleware for Wireless Networks<br>Robust routing<br>Satellite communications<br>Self–organizing networks<br>Smart cities and smart grids<br>Vehicular networks<br>Wireless Broadcasting, Multicasting, Geo–casting, Streaming and Routing<br>Wireless Network Security and Privacy<br>Wireless sensor networks<br>Track 4: Services, Applications, and Business<br>Aerospace, Electronic and Defence sector<br>Audio and video broadcast applications<br>Authentication, authorization and accounting<br>Cognitive radio and sensor–based applications<br>Content distribution in wireless home environment<br>Context and location–aware wireless services & applications<br>Context and location–awareness in pervasive systems<br>Cyber–physical systems and applications<br>Dynamic services, autonomic services<br>Emerging wireless and mobile applications<br>Geoscience and remote sensing and related fields<br>Innovative user interfaces, P2P services for multimedia<br>Intelligent transportation systems<br>Mobile multimedia services<br>Mobile to mobile and in–car communication networks<br>Next generation home networks<br>P2P services for multimedia<br>Personalization, profiles and profiling<br>Personalization, service discovery, profiles and profiling<br>Regulations, standards, spectrum management<br>Secure network and service access<br>Self–adaptation on the service layer<br>Service discovery and portability<br>Service oriented architectures, service portability and cloud computing<br>SIP based services, multimedia, QoS support, middleware<br>Test–bed and prototype implementation of wireless services<br>User interfaces, user–machine interactions<br>Wireless applications in robotics<br>Wireless emergency and security systems<br>Wireless health applications, telemedicine and e–health services<br>
Abbrevation
APWiMob
City
Bali
Country
Indonesia
Deadline Paper
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