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	<img alt="Wings" src="img/wings.png" align="left" width="100" height="100">
        <h1>Wireless Networking and Systems (WINGS) Lab</h1>
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                <th> SpecSense - Large-Scale Distributed Spectrum Sensing</th>
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            <td><img alt="Wings" src="img/specsense.jpg" align="left" width="300" height="200"  style="margin:30px 50px 30px 20px">
                <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;"> In SpecSense we envision a large-scale RF spectrum monitoring system that will feed into multitudes of spectrum-aware applications forming an entire ecosystem of spectrum data, analytics, and apps. Our goal is to investigate what it takes to develop an end-to-end enabling platform to support this vision. The SpecSense system (i) crowdsources spectrum monitoring using low-cost, low-power custom-designed hardware, and (ii) provides necessary API support for spectrum-aware apps via a central spectrum server/database platform. The project addresses various algorithmic and systems-level challenges for SpecSense.
                <br>
                <font color="blue">Project Webpage: </font> <a href="https://www3.cs.stonybrook.edu/~samir/specsense" target="_blank">https://www3.cs.stonybrook.edu/~samir/specsense</a> <br>
                <font color="blue">Publications: </font>ACM/IEEE IPSN'20, ESORICS'19, PAM'19, IEEE DySPAN'18,'19, IEEE INFOCOM'18, IEEE INFOCOM'17,'20, ACM HotWireless'16, ACM CoNEXT'14, ACM MobiCom'13 </font>
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                <th>Dynamic Spectrum Access / Mobile Spectrum Sensing</th>
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            <td><img alt="Wings" src="img/rtl_phone.jpg" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
                <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">This project deals with augmenting spectrum databases that are based on propagation models with real spectrum sensor measurements. It is envisioned that such measurements will be crowdsourced using mobile devices. We look into spatial and temporal opportunities across such resource-constrained devices to collect measurement data.
                <br>
                <font color="blue">Publications: </font>IEEE INFOCOM'17, ACM HotWireless'16, DCOSS'16, IEEE DySPAN'15, ACM CoNEXT'14, ACM Mobicom'13
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                <th>Quality of Experience: Video Streaming, AR/VR, Web Browsing, Mobile Internet Applications</th>
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                <td><img alt="Wings" src="img/qoefig.jpg" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
                <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;"> This line of work aims to improve the quality of experience (QoE) of mobile Internet-based applications (e.g., 4K/8K Video Streaming, 360-Degree Video Streaming, Web Browsing, AR/VR). With the tremendous growth in diverse mobile applications, devices, and networks, identifying the root cause of the issues behind the poor user QoE has become extremely challenging. In this work, we target providing the a good QoE for users while minimizing the resource consumption both in terms of network capacity and device hardware.
                <br>
                <font color="blue">Publications: </font>USENIX NSDI'22, WACV'21, IEEE INFOCOM'20, IFIP Networking'19, ACM IMC'18, ACM/IEEE IWQoS'18, USENIX NSDI'17, ACM CoNEXT'16, ACM MMSys'16, ACM IMC'14
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                <th>Backscatter-based Tag-to-Tag Networking</th>
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            <td><img alt="Wings" src="img/image00.png" align="left" width="300" height="220"  style="margin:20px 50px 20px 20px">
                <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">This project develops a prototype RF tag platform called RIBBN (Research Infrastructure for Backscatter-Based Networks) that uses the principle of backscatterd communication (similar to RFID), but there is no requirement of RFID readers or equivalent devices. The tags have the ability to communicate among themselves using completely passive backscatter modulation. The vision is developing a modular/extensible, programmable and powerful platform that will drive the future Internet of Things.
                <br>
                <font color="blue">Project Webpage: </font> <a href="https://www3.cs.stonybrook.edu/~samir/projects/RIBBN.htm" target="_blank">https://www3.cs.stonybrook.edu/~samir/projects/RIBBN.htm</a> <br>
                <font color="blue">Publications: </font>ACM SenSys'21, IEEE ICASSP'19,'20, IEEE ISCAS'16,'19,'20, ACM MobiSys'18, IEEE IoT J'18, IEEE RFID'17, ACM MSWiM'15
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                <th>FSO-based Networking</th>
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                <td><img alt="Wings" src="img/image01.png" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
                    <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">This project develops very high bit rate (Gbps and up) dynamic topology networks using free space optical (FSO) links. Steerable FSO links power the network and are developed using commodity optical components. Two applications are studied: data center networks and backhaul for future picocellular networks.
                <br>
                <font color="blue">Publications: </font>ACM SIGCOMM'22, ACM CoNEXT'20, IEEE SECON'18, ACM WearSys'18, ACM MobiCom'17, IEEE ICC'16, ACM SIGCOMM'14, ACM HotNets'13
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                <th>NFV for Cellular Core Networks</th>
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            <td><img alt="Wings" src="img/image03.png" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
			<font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">This project studies network functions virtualization (NFV), specifically targeting virtualization & customization of cellular core networks functions of tomorrow. This not only involves study of LTE's EPC core but also its compatibility with the emerging M2M and IOTs with the LTE Architecture. Also, involved in developing the new policy framework for the next generation LTE infrastructure.
            <br></br>
            <font color="blue">Publications: </font> ACM SOSR'19, IFIP Networking'17, ACM AllThingsCellular'16
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                <th>Localization</th>
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                    <td><img alt="Wings" src="img/localize.jpg" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
                    <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">In this project we are interested in exploring machine learning approaches for  localization using radio signals normally used for communications (such as WiFi and cellular signals). We are interested in exploring complex problem spaces in this general area.
                    <br></br>
                    <font color="blue">Publications: </font> ACM CoNEXT'11, IEEE INFOCOM'15, IEEE DySPAN'20, ACM/IEEE IPSN'20, IEEE WoWMoM'21, Elsevier PMC'22
                    </font></td>
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                <th>Quantum Networking</th>
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                    <td><img alt="Wings" src="img/quantum-network.png" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
                    <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">In this project we are interested in exploring quantum communication networks and its application in quantum sensor networks and distributed quantum computing.
                    <br></br>
                    <font color="blue">Publications: </font>DISC'21, IEEE QCE'22, IEEE TQE'22, Physical Review A'23, IEEE QCE'23,
                    </font></td>
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                <th>Analytics on Cellular Data Networks</th>
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            <td><img alt="Wings" src="img/image02.png" align="left" width="300" height="200"  style="margin:20px 50px 20px 20px">
            <font style="font-family: 'Lora', serif; line-height: 170%; font-size: 120%;">This project seeks to undertake a significant modeling exercise on wireless/mobile network data with two goals: 1) understanding the traffic dynamics and discovering any possible structure or relationships; 2)  using this knowledge for doing some form of resource management decisions. We specifically target cellular data networks.
            <br></br>
            <font color="blue">Publications: </font> IEEE INFOCOM'13
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