APWiMob 2016 invites papers, original & unpublished work from individuals active in the broad theme of the conference. Potential topics include, but are not limited to:<br>Track 1: Fundamentals and PHY<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
Bandung
Country
Indonesia
Deadline Paper
Start Date
End Date
Abstract