Evaluating 802.11ac Features in Indoor WLAN- An Empirical Study of Performance and Fairness
We present a thorough and extensive experimental performance characterization of the achievable data throughput, jitter, and fairness of the IEEE 802.11ac standard for indoor Wireless Local Area Networks (WLANs) using real testbed deployments and statistical analysis.
Spatio-Temporal Point Path Analysis and Optimization of a Galvanoscopic Scanning Laser Projector
We propose a method to generate an accurate point-based projection with such devices.
A LED-Based IR/RGB End-to-End Latency Measurement Device
We present a generic latency measurement device which can be used to accurately measure the overall end-to-end latency of camera-based AR systems with an accuracy below one millisecond.
Maintaining Awareness of the Focus of Attention of a Conversation: A Robot-Centric Reinforcement Learning Approach
We explore online reinforcement learning techniques to find good policies to control the orientation of a mobile robot during social group conversations.
Automultiscopic Displays Based on Orbital Angular Momentum of Light
We propose and demonstrate the viability of using OAM to create an automultiscopic 3D display.
EnLighting: An Indoor Visible Light Communication System based on Networked Light Bulbs
This paper describes a VLC system, called EnLighting, based on light bulbs that support an embedded Linux version (and its complete networking stack).
Energy-Interference-Free System and Toolchain Support for Energy-Harvesting Devices
Energy-harvesting computers eschew tethered power and batteries by harvesting energy from their environment.
NFC-WISP: A Sensing and Computationally Enhanced Near-Field RFID Platform
This paper presents the NFC-WISP, which is a programmable, sensing and computationally enhanced platform designed to explore new RFID enabled sensing and user interface applications.
3-Dimensional Charging via Multi-Mode Resonant Cavity Enabled Wireless Power Transfer
In this paper, we propose an unexplored type of wireless power transfer system based on electromagnetic cavity resonance.
Resonant Cavity Mode Enabled Wireless Power Transfer
This paper proposes using the electromagnetic resonant modes of a hollow metallic structure to provide wireless power to small receivers contained anywhere inside.
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