Difference between revisions of "Resource:Seminar"

Revision as of 20:20, 2 January 2024

Time: Thursday 9:00-10:30
Address: 4th Research Building A518
Useful links: Readling list; Schedules; Previous seminars.

Latest

[ToSN '23] Decoding LoRa Collisions via Parallel Alignment, Kai Chen
Abstract: The massive connection of LoRa brings serious collision interference. Existing collision decoding methods cannot effectively deal with the adjacent collisions that occur when the collided symbols are adjacent in the frequency spectrum. The decoding features relied on by the existing methods will be corrupted by adjacent collisions. To address these issues, we propose Paralign, which is the first LoRa collision decoder supporting decoding LoRa collisions with confusing symbols via parallel alignment. The key enabling technology behind Paralign is tha there is no spectrum leakage with periodic truncation of a chirp. Paralign leverages the precise spectrum obtained by aligning the de-chirped periodic signals from each packet in parallel for spectrum filtering and power filtering. To aggregate correlation peaks in different windows of the same symbol, Paralign matches the peaks of multiple interfering windows to the interested window based on the time offset between collided packets. Moreover, a periodic truncation method is proposed to address the multiple candidate peak problem caused by side lobes of confusing symbols. We evaluate Paralign using USRP N210 in a 20-node network. Experimental results demonstrate that Paralign can significantly improve network throughput, which is over 1.46× higher than state-of-the-art methods.
[MASS '23] WiMix: A Lightweight Multimodal Human Activity Recognition System based on WiFi and Vision, Haotian
Abstract: Human activity recognition is important for a wide range of applications such as surveillance systems and human-computer interaction. Computer vision based human activity recognition suffers from performance degradation in many real-world scenarios where the illumination is poor. On the other hand, recently proposed WiFi sensing that leverage ubiquitous WiFi signal for activity recognition is not affected by illumination but has low accuracy in dynamic environments. In this paper, we propose WiMix, a lightweight and robust multimodal system that leverages both WiFi and vision for human activity recognition. To deal with complex real-world environments, we design a lightweight mix cross attention module for automatic WiFi and video weight distribution. To reduce the system response time while ensuring the sensing accuracy, we design an end-to-end framework together with an efficient classifier to extract spatial and temporal features of two modalities. Extensive experiments are conducted in the real-world scenarios and the results demonstrate that WiMix achieves 98.5% activity recognition accuracy in 3 scenarios, which outperforms the state-of-the-art 89.6% sensing accuracy using WiFi and video modalities. WiMix can also reduce the inference latency from 1268.25ms to 217.36ms, significantly improving the response time.
[TMC '23] A Multicriteria-Based Forwarding Strategy for Interest Flooding Mitigation on Named Data Wireless Networking, Zhenghua
Abstract: In wireless networks, the Named Data Networking (NDN) architecture maximizes contents’ availability throughout multiple network paths based on multicast-based communication combined with stateful forwarding and caching in intermediate nodes. Despite its benefits, the downside of the architecture resides in the packet flooding not efficiently prevented by current forwarding strategies and mainly associated with the native flooding of the architecture or malicious packets from Interest Flooding Attack (IFA). This work introduces iFLAT, a multicriteria-based forwarding strategy for i nterest FL ooding mitig AT ion on named data wireless networking. It follows a cross-layer approach that considers: (i) the Received Signal Strength (RSS) to adjust itself to the current status of the wireless network links, (ii) the network traffic ( meInfo ) to detect flooding issues and traffic anomalies, and (iii) a fake Interest Blacklist to identify IFA-related flooding. In doing so, the strategy achieves better efficiency on Interest flooding mitigation, addressing both native and IFA types of flooding. We evaluated the proposed strategy by reproducing a Flying Ad hoc Network (FANET) composed of Unmanned Aerial Vehicles (UAVs) featured by the NDN stack deployed in all nodes. Simulation results show that iFLAT can effectively detect and mitigate flooding, regardless of its origin or nature, achieving greater packet forwarding efficiency than competing strategies. In broadcast storm and IFA scenarios, it achieved 25.75% and 37.37% of traffic reduction, whereas Interest satisfaction rates of 16.36% and 51.78% higher, respectively.
[MobiCom '23] MetaStream: Live Volumetric Content Capture, Creation, Delivery, and Rendering in Real Time, Jiale
Abstract: While recent work explored streaming volumetric content on-demand, there is little effort on live volumetric video streaming that bears the potential of bringing more exciting applications than its on-demand counterpart. To fill this critical gap, in this paper, we propose MetaStream, which is, to the best of our knowledge, the first practical live volumetric content capture, creation, delivery, and rendering system for immersive applications such as virtual, augmented, and mixed reality. To address the key challenge of the stringent latency requirement for processing and streaming a huge amount of 3D data, MetaStream integrates several innovations into a holistic system, including dynamic camera calibration, edge-assisted object segmentation, cross-camera redundant point removal, and foveated volumetric content rendering. We implement a prototype of MetaStream using commodity devices and extensively evaluate its performance. Our results demonstrate that MetaStream achieves low-latency live volumetric video streaming at close to 30 frames per second on WiFi networks. Compared to state-of-the-art systems, MetaStream reduces end-to-end latency by up to 31.7% while improving visual quality by up to 12.5%.

History

[Topic] [ The path planning algorithm for multiple mobile edge servers in EdgeGO], Rong Cong, 2020-11-18

[Mobisys20] Combating packet collisions using non-stationary signal scaling in LPWANs, Wenliang Mao, 2020-11-18
[Topic] [ Dependency-Aware and Latency-Optimal Service Cache in Edge networks], Jiwei Mo, 2020-11-18
[talk] Paper Carnival 2020, ALL, 2020-09-24,25,26

[INFOCOM'20] Optimizing Federated Learning on Non-IID Data with Reinforcement Learning, YuHong Jiang, 2020-5-16

[INFOCOM'20] Joint Optimization of Signal Design and Resource Allocation in Wireless D2D Edge Computing, Shiqi Hu, 2020-4-20
[INFOCOM'20] LiteNap: Downclocking LoRa Reception, Wenliang Mao, 2020-4-13
[INFOCOM'20] Delay-Optimal Distributed Edge Computing in Wireless Edge Networks, Chang Shu, 2020-3-30
[IoTJ 2018] Over-the-Air Computation for IoT Networks: Computing Multiple Functions With Antenna Arrays, Yuhong Jiang, 2020-3-23
[SIGCOMM'19] RF-based Inertial Measurement, Weifeng Gao, 2020-3-16

2019

[ICDCS'19] FRAME: Fault Tolerant and Real-Time Messaging for Edge Computing, Xiaosong Wang, 2019-12-25
[INFOCOM'19] Intelligent Edge-Assisted Crowdcast with Deep Reinforcement Learning for Personalized QoE, Hengwei Deng, 2019-12-25
[ieee communications magazine'18] Orchestration of Microservices for IoT Using Docker and Edge Computing, Changsheng Liu, 2019-12-17
[Computer Science'13] Playing Atari with Deep Reinforcement Learning, Jie Zhang, 2019-12-17
[ICNP'19] Exploiting Rateless Codes and Cross-Layer Optimization for Low-Power Wide-Area Networks, Silin Feng, 2019-11-13
[ICDCS'19] DMRA: A Decentralized Resource Allocation Scheme for Multi-SP Mobile Edge Computing, Jiwei Mo, 2019-11-13
[MobiCom'19] Edge Assisted Real-time Object Detection for MobileAugmented Reality, Yunpeng Han, 2019-11-06
[NSDI'20] Frequency Configuration for Low-Power Wide-Area Networks in a Heartbeat, Xiong Wang, 2019-11-06
[MobiSys'16] Mobility Modeling and Prediction in Bike-Sharing Systems, Anqi Yang, 2019-10-30
[Tech. Rep.] LoRa Localization, Xuan Yang, 2019-10-30
[SigComm'19] E2E: Embracing User Heterogeneity to ImproveQuality of Experience on the Web, Jingwei Li, 2019-10-23
[ICDCS'19] CMFL: Mitigating Communication Overhead for Federated Learning, Yuhong Jiang, 2019-10-23
[Tech.Rep.] Report on LoRa reliable protocols, Wenliang Mao, 2019-10-16
[ICDCS'19] Computation Offloading for Mobile-Edge Computing with Multi-user, Chang Shu, 2019-10-16

[Paper_Carnival_2019] Paper Carnival 2019, ALL, 2019-09-28,29,30
[INFOCOM'19] Octans: Optimal Placement of Service Function Chains in Many-Core Systems, Yuntong Zhang, 2019-05-22
[INFOCOM'19] Adaptive Interference-Aware VNF Placement for Service-Customized 5G Network Slices, Zhe Wang, 2019-05-22
[Tech. Rep.] Recent progress and further trends on EdgeCloudSim, Yunpeng Han, 2019-04-19
[MobiCom'19] mD-Track: Leveraging Multi-Dimensionality for Passive Indoor Wi-Fi Tracking, Xuan Yang, 2019-04-19
[NSDI'19] Correctness and Performance for Stateful Chained Network Functions, Yunpeng Han, 2019-04-19
[INFOCOM'19] Charging Oriented Sensor Placement and Flexible Scheduling in Rechargeable WSN, Wenjie Huang, 2019-04-12
[SIGCOMM'13] Developing a Predictive Model of Quality of Experience for Internet Video, Yuhong Jiang, 2019-04-12
[INFOCOM'19] Brush like a Dentist: Accurate Monitoring of Toothbrushing via Wrist-Worn Gesture Sensing, Jingwei Li, 2019-03-29
[INFOCOM'19] Nomad: An Efficient Consensus Approach for Latency-Sensitive Edge-Cloud Applications, Anqi Yang, 2019-03-29
[INFOCOM'19] Winning at the Starting Line: Joint Network Selection and Service Placement for Mobile Edge Computing, Chang Shu, 2019-03-22
[INFOCOM'19] Interference Recycling: Exploiting Interfering Signals to Enhance Data Transmission, Wenliang Mao, 2019-03-22
[COMST'18] Small Cells in the Forthcoming 5G/IoT: Traffic Modeling and Deployment Overview, Anqi Yang, 2019-01-04

2018

[SIGCOMM'18] Elastic Sketch: Adaptive and Fast Network-wide Measurements, Wenliang Mao, 2018-12-21
[TMC'17] Performance analysis of mobile data offloading in heterogeneous networks, Yunpeng Han, 2018-12-06
[COMST'18] Small Cells in the Forthcoming 5G/IoT: Traffic Modelling and Deployment Overview, Anqi Yang, 2018-12-06
[TMC'17] A Reliability-Augmented Particle Filter for Magnetic Fingerprinting based Indoor Localization on Sma, Wenjie Huang, 2018-11-30
[ToN'18] A Distributed Computation Offloading Strategy in Small-Cell Networks Integrated With Mobile Edge Computing, Yuhong Jiang, 2018-11-23
[ICNP'18] Networking Support For Physical-Layer Cross-Technology Communication, Jingwei Li, 2018-11-23
[IoT Journal'18] Mobile-Edge Computation Offloading for Ultra-Dense IoT Networks, Chang Shu, 2018-11-16
[IPSN'17] BLEnd: Practical Continuous Neighbor Discovery for Bluetooth Low Energy, Minghang Yang, 2018-11-16
[Topic] LoRa Applications (two papers), Xinyuan Huang, 2018-10-19
[TMC'17] Static and Mobile Target k-Coverage in Wireless Rechargeable Sensor Networks, Shuowei Chen, 2018-10-19
[EWSN'17] MOR: Multichannel Opportunistic Routing for Wireless Sensor Networks, Xuan Yang, 2018-10-12
[TMC'17] Hermes: Latency Optimal Task Assignment for Resource-constrained Mobile Computing, Yunpeng Han, 2018-10-12
[MobiCom'17] FoggyCache: Cross-Device Approximate Computation Reuse, Jingwei Li, 2018-09-30
[INFOCOM'18] Knowledge-centric proactive edge caching over mobile content distribution network, Anqi Yang, 2018-09-21
[TWC'18] Enhancing Video Rate Adaptation with Mobile Edge Computing and Caching in Software-defined Mobile Ne, Yuhong Jiang, 2018-09-21
[INFOCOM'18] Dynamic,Latency-Optimal vNF Placement at the Network Edge, Latency-Optimal vNF Placement at the Network Edge, Chang Shu
[TMC'17] Neighbor Discovery and Rendezvous Maintenance with Extended Quorum Systems for Mobile Applications, Minghang Yang, 2018-09-14
[Special Session] 3-day discussion on recent papers in wireless,networking and mobile, networking and mobile</a>, Chang Shu
[IPSN'18] Charm: Exploiting Geographical Diversity Through Coherent Combining in Low-Power Wide-Area Networks, Weifeng Gao, 2018-06-15
[INFOCOM'18] Adaptive VNF Scaling and Flow Routing with Proactive Demand Prediction, Chang Shu, 2018-06-15
[ComMag'17] The Algorithmic Aspects of Network Slicing, Yunpeng Han, 2018-06-08
[IPSN'18] Continuous Wireless Link Rates for Internet of Things, Luqi Yang, 2018-06-08
[INFOCOM'18] TwinBee: Reliable Physical-Layer Cross-Technology Communication with Symbol-Level Coding, Xinyuan Huang, 2018-06-01
[Invited Tech.Rep.] Report on recent research progress, Songfan Li, 2018-06-01
[Special Session] Scheduling Algorithms for Resource-Constrained Systems, Prof. Dakai Zhu from UTSA, 2018-05-28
[CVPR'17] Action-Decision Networks for Visual Tracking with Deep Reinforcement Learning, Hui Cao, 2018-05-21
[INFOCOM'18] Self-Adapting Quorum-Based Neighbor Discovery in Wireless Sensor Networks, Minghang Yang, 2018-05-21
[Special Session] From Location to Activity: Human-centric Sensing and Analytics, Prof. Tao Gu, 2018-05-11
[INFOCOM'18] [# LipPass: Lip Reading-based User Authentication on Smartphones Leveraging Acoustic Signals], Shuowei Chen, 2018-04-27
[JSAC'17] QoE-Aware and Reliable Traffic Steering for Service Function Chaining in Mobile Networks, Zhe Wang, 2018-04-27
[JSAC'17] Distributed Service Function Chaining, Yuntong Zhang, 2018-04-13
[INFOCOM'18] Joint Service Caching and Task Offloading for Mobile Edge Computing in Dense Networks, Zi Wang, 2018-04-13
[INFOCOM'18] One-Hop Out-of-Band Control Planes for Low-Power Multi-Hop Wireless Networks, Chang Shu, 2018-03-16
[SigComm'16] OpenBox: A Software-De?ned Framework for Developing,Deploying,and Managing Network Functions, Deploying, and Managing Network Functions</a>
[SigComm'17] Empowering Low-Power Wide Area Networks in Urban Settings, Weifeng Gao, 2018-02-02
[ComMag16] Hypergraph Theory: Applications in 5G Heterogeneous Ultra-Dense Networks, Yunpeng Han, 2018-01-26
[TCST'17] Optimal UAV Route Planning for Coverage Search of Stationary Target in River, Hui Cao, 2018-01-26

2017

[MobiCom'17] ReflexCode: Coding with Superposed Reflection Light for LED-Camera Communication, Xinyuan Huang, 2017-12-08
[Proc. IEEE 2016] Using Smart Edge IoT Devices for Safer,Rapid Response With Industry IoT Control Operations, Rapid Response With Industry IoT Control Operations</a>, Minghang Yang
[INFOCOM'17] Approximation Algorithms for The NFV Service Distribution Problem, Yuntong Zhang, 2017-11-24
[CCS'17] DolphinAtack: Inaudible Voice Commands, Zifei Zhao, 2017-11-24
[NSDI'17] Improving User Perceived Page Load Times Using Gaze, Yaoyao Pang, 2017-11-17
[CoNEXT'16] Flurries: Countless Fine-Grained NFs for Flexible Per-Flow Customization, Zhe Wang, 2017-11-17
[MobiCom'17] PassiveVLC: Enabling Practical Visible Light Backscatter Communication for Battery-free IoT Applicat, Weifeng Gao, 2017-11-10
[INFOCOM'17] Service Chain Embedding with Maximum Flow in Software-defined Network and Application to The Next-Ge, Chang Shu, 2017-11-10
[INFOCOM'17] BAC: Bandwidth-Aware Compression for EfficientLive Migration of Virtual Machines, Yunpeng Han, 2017-11-03
[MobiCom'17] WEBee: Physical-Layer Cross-Technology Communication via Emulation, Shuowei Chen, 2017-11-03
[SigComm'17] NFVnice: Dynamic Backpressure and Scheduling for NFV Service Chains, Hui Cao, 2017-10-27
[MobiCom'17] Continuous Authentication for Voice Assistants, Heng Yuan, 2017-10-27
[TWC'17] Computation Offloading and Resource Allocation in Wireless Cellular Networks With Mobile Edge Computing, Xinyuan Huang, 2017-10-20
[ToN'17] Chase: Taming concurrent broadcast for flooding in asynchronous duty cycle networks, Minghang Yang, 2017-10-20
[TOSN'17] Improving Performance of Synchronous Transmission-Based Protocols Using Capture Effect over Multicha, Luqi Yang, 2017-10-13
[SigComm'17] Dynamic Service Chaining with Dysco, Chang Shu, 2017-10-13
[INFOCOM'17] ER: Early Recognition of Inattentive Driving Leveraging Audio Devices on Smartphones, Zifei Zhao, 2017-09-29
[INFOCOM'17] LightTouch: Securely Connecting Wearables to Ambient Displays with User Intent, Yaoyao Pang, 2017-09-22
[INFOCOM'17] Traffic Aware Placement of Interdependent NFV Middleboxes, Zhe Wang, 2017-09-22
[SigComm'17] NFP: Enabling Network Function Parallelism in NFV, Yuntong Zhang, 2017-09-22
[NFV-SDN'16] Efficient service Graph Embedding: A Practical Approach, Chang Shu, 2017-09-11
[SenSys'17] Network-wide Consensus Utilizing the Capture Effect in Low-power Wireless Networks, Weifeng Gao, 2017-09-11
[INFOCOM'17] Survivable and Bandwidth Guaranteed Embe, Yuntong Zhang, 2017-06-26
[MobiCom'15] [ Survivable and Bandwidth Guaranteed Embedding of Virtual Clusters in Cloud Data Centers], Yuntong Zhang, 2017-06-26
[MobiCom'15] Keystroke Recognition Using WiFi Signals, Weiwang Li, 2017-06-26

Template loop detected: Resource:Previous Seminars

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请使用Latest_seminar和Hist_seminar模板更新本页信息.

- 修改时间和地点信息
- 将当前latest seminar部分的code复制到这个页面中
- 将{{Latest_seminar... 修改为 {{Hist_seminar...，并增加对应的日期信息|date=
- 填入latest seminar各字段信息
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- Latest_seminar:

{{Latest_seminar
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@@ Line 7: / Line 7: @@
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 {{Latest_seminar
-|abstract=Low-density parity-check (LDPC) codes have been widely used for Forward Error Correction (FEC) in wireless networks because they can approach the capacity of wireless links with lightweight encoding complexity. Although LoRa networks have been developed for many applications, they still adopt simple FEC codes, i.e., Hamming codes, which provide limited FEC capacity, causing unreliable data transmissions and high energy consumption of LoRa nodes. To close this gap, this paper develops LLDPC, which realizes LDPC coding in LoRa networks. Three challenges are addressed. 1) LoRa employs Chirp Spread Spectrum (CSS) modulation, which only provides hard demodulation results without soft information. However, LDPC requires the Log-Likelihood Ratio (LLR) of each received bit for decoding. We develop an LLR extractor for LoRa CSS. 2) Some erroneous bits may have high LLRs (i.e., wrongly confident in their correctness), significantly affecting the LDPC decoding efficiency. We use symbol-level information to fine-tune the LLRs of some bits to improve the LDPC decoding efficiency. 3) Soft Belief Propagation (SBP) is typically used as the LDPC decoding algorithm. It involves heavy iterative computation, resulting in a long decoding latency, which prevents the gateway from sending timely an acknowledgment. We take advantage of recent advances in graph neural networks for fast belief propagation in LDPC decoding. Extensive simulations on a large-scale synthetic dataset and in-filed experiments reveal that LLDPC can extend the lifetime of the default LoRa by 86.7% and reduce the decoding latency of the SBP algorithm by 58.09×.
+|abstract=The massive connection of LoRa brings serious collision interference. Existing collision decoding methods cannot effectively deal with the adjacent collisions that occur when the collided symbols are adjacent in the frequency spectrum. The decoding features relied on by the existing methods will be corrupted by adjacent collisions. To address these issues, we propose Paralign, which is the first LoRa collision decoder supporting decoding LoRa collisions with confusing symbols via parallel alignment. The key enabling technology behind Paralign is tha there is no spectrum leakage with periodic truncation of a chirp. Paralign leverages the precise spectrum obtained by aligning the de-chirped periodic signals from each packet in parallel for spectrum filtering and power filtering. To aggregate correlation peaks in different windows of the same symbol, Paralign matches the peaks of multiple interfering windows to the interested window based on the time offset between collided packets. Moreover, a periodic truncation method is proposed to address the multiple candidate peak problem caused by side lobes of confusing symbols. We evaluate Paralign using USRP N210 in a 20-node network. Experimental results demonstrate that Paralign can significantly improve network throughput, which is over 1.46× higher than state-of-the-art methods.
-|confname=SenSys' 22
+|confname=ToSN '23
-|link=https://dl.acm.org/doi/pdf/10.1145/3560905.3568547
+|link=https://dl.acm.org/doi/10.1145/3571586
-|title=LLDPC: A Low-Density Parity-Check Coding Scheme for LoRa Networks
+|title=Decoding LoRa Collisions via Parallel Alignment
-|speaker=Wengliang
+|speaker=Kai Chen
-|date=2023-12-21}}
+|date=2024-01-04}}
 {{Latest_seminar
-|abstract=Network update enables Software-Defined Networks (SDNs) to optimize the data plane performance. The single update focuses on processing one update event at a time, i.e. , updating a set of flows from their initial routes to target routes, but it fails to handle continuously arriving update events in time incurred by high-frequency network changes. On the contrary, the continuous update proposed in “Update Algebra” can handle multiple update events concurrently and respond to the network condition changes at all times. However, “Update Algebra” only guarantees the blackhole-free and loop-free update. The congestion-free property cannot be respected. In this paper, we propose Coeus to achieve the continuous update while maintaining consistency, i.e. , ensuring the blackhole-free, loop-free, and congestion-free properties simultaneously. Firstly, we establish the continuous update model based on the update operations in update events. With the update model, we dynamically reconstruct the operation dependency graph (ODG) to capture the relationship between update operations and link utilization variations. Then, we develop a composition algorithm to eliminate redundant operations in update events. To further speed up the update procedure, we present a partition algorithm to split the operation nodes of the ODG into a series of suboperation nodes that can be executed independently. The partition algorithm is proven to be optimal. Finally, extensive evaluations show that Coeus can improve the update speed by at least 179% and reduce redundant operations by at least 52% compared with state-of-the-art approaches when the arrival rate of update events equals three times per second.
+|abstract=Human activity recognition is important for a wide range of applications such as surveillance systems and human-computer interaction. Computer vision based human activity recognition suffers from performance degradation in many real-world scenarios where the illumination is poor. On the other hand, recently proposed WiFi sensing that leverage ubiquitous WiFi signal for activity recognition is not affected by illumination but has low accuracy in dynamic environments. In this paper, we propose WiMix, a lightweight and robust multimodal system that leverages both WiFi and vision for human activity recognition. To deal with complex real-world environments, we design a lightweight mix cross attention module for automatic WiFi and video weight distribution. To reduce the system response time while ensuring the sensing accuracy, we design an end-to-end framework together with an efficient classifier to extract spatial and temporal features of two modalities. Extensive experiments are conducted in the real-world scenarios and the results demonstrate that WiMix achieves 98.5% activity recognition accuracy in 3 scenarios, which outperforms the state-of-the-art 89.6% sensing accuracy using WiFi and video modalities. WiMix can also reduce the inference latency from 1268.25ms to 217.36ms, significantly improving the response time.
-|confname=ToN' 22
+|confname=MASS '23
-|link=https://ieeexplore.ieee.org/document/9690589/
+|link=https://ieeexplore.ieee.org/abstract/document/10298524
-|title=Continuous Network Update With Consistency Guaranteed in Software-Defined Networks
+|title=WiMix: A Lightweight Multimodal Human Activity Recognition System based on WiFi and Vision
-|speaker=Yaliang
+|speaker=Haotian
-|date=2023-12-21}}
+|date=2024-01-04}}
 {{Latest_seminar
-|abstract=With the reduced hardware costs of omnidirectional cameras and the proliferation of various extended reality applications, more and more 360° videos are being captured. To fully unleash their potential, advanced video analytics is expected to extract actionable insights and situational knowledge without blind spots from the videos. In this paper, we present OmniSense, a novel edge-assisted framework for online immersive video analytics. OmniSense achieves both low latency and high accuracy, combating the significant computation and network resource challenges of analyzing 360° videos. Motivated by our measurement insights into 360° videos, OmniSense introduces a lightweight spherical region of interest (SRoI) prediction algorithm to prune redundant information in 360° frames. Incorporating the video content and network dynamics, it then smartly scales vision models to analyze the predicted SRoIs with optimized resource utilization. We implement a prototype of OmniSense with commodity devices and evaluate it on diverse real-world collected 360° videos. Extensive evaluation results show that compared to resource-agnostic baselines, it improves the accuracy by 19.8% – 114.6% with similar end-to-end latencies. Meanwhile, it hits 2.0× – 2.4× speedups while keeping the accuracy on par with the highest accuracy of baselines.
+|abstract=In wireless networks, the Named Data Networking (NDN) architecture maximizes contents’ availability throughout multiple network paths based on multicast-based communication combined with stateful forwarding and caching in intermediate nodes. Despite its benefits, the downside of the architecture resides in the packet flooding not efficiently prevented by current forwarding strategies and mainly associated with the native flooding of the architecture or malicious packets from Interest Flooding Attack (IFA). This work introduces iFLAT, a multicriteria-based forwarding strategy for i nterest FL ooding mitig AT ion on named data wireless networking. It follows a cross-layer approach that considers: (i) the Received Signal Strength (RSS) to adjust itself to the current status of the wireless network links, (ii) the network traffic ( meInfo ) to detect flooding issues and traffic anomalies, and (iii) a fake Interest Blacklist to identify IFA-related flooding. In doing so, the strategy achieves better efficiency on Interest flooding mitigation, addressing both native and IFA types of flooding. We evaluated the proposed strategy by reproducing a Flying Ad hoc Network (FANET) composed of Unmanned Aerial Vehicles (UAVs) featured by the NDN stack deployed in all nodes. Simulation results show that iFLAT can effectively detect and mitigate flooding, regardless of its origin or nature, achieving greater packet forwarding efficiency than competing strategies. In broadcast storm and IFA scenarios, it achieved 25.75% and 37.37% of traffic reduction, whereas Interest satisfaction rates of 16.36% and 51.78% higher, respectively.
-|confname=INFOCOM '23
+|confname=TMC '23
-|link=https://ieeexplore.ieee.org/document/10229105
+|link=https://ieeexplore.ieee.org/document/9888056
-|title=OmniSense: Towards Edge-Assisted Online Analytics for 360-Degree Videos
+|title=A Multicriteria-Based Forwarding Strategy for Interest Flooding Mitigation on Named Data Wireless Networking
-|speaker=Mengfan
+|speaker=Zhenghua
-|date=2023-12-21}}
+|date=2024-01-04}}
 {{Latest_seminar
-|abstract=Remote Direct Memory Access (RDMA) is widely used in high-performance computing (HPC) and data center networks. In this paper, we first show that RDMA does not work well with existing load balancing algorithms because of its traffic flow characteristics and assumption of in-order packet delivery. We then propose ConWeave, a load balancing framework designed for RDMA. The key idea of ConWeave is that with the right design, it is possible to perform fine granularity rerouting and mask the effect of out-of-order packet arrivals transparently in the network datapath using a programmable switch. We have implemented ConWeave on a Tofino2 switch. Evaluations show that ConWeave can achieve up to 42.3% and 66.8% improvement for average and 99-percentile FCT, respectively compared to the state-of-the-art load balancing algorithms.
+|abstract=While recent work explored streaming volumetric content on-demand, there is little effort on live volumetric video streaming that bears the potential of bringing more exciting applications than its on-demand counterpart. To fill this critical gap, in this paper, we propose MetaStream, which is, to the best of our knowledge, the first practical live volumetric content capture, creation, delivery, and rendering system for immersive applications such as virtual, augmented, and mixed reality. To address the key challenge of the stringent latency requirement for processing and streaming a huge amount of 3D data, MetaStream integrates several innovations into a holistic system, including dynamic camera calibration, edge-assisted object segmentation, cross-camera redundant point removal, and foveated volumetric content rendering. We implement a prototype of MetaStream using commodity devices and extensively evaluate its performance. Our results demonstrate that MetaStream achieves low-latency live volumetric video streaming at close to 30 frames per second on WiFi networks. Compared to state-of-the-art systems, MetaStream reduces end-to-end latency by up to 31.7% while improving visual quality by up to 12.5%.
-|confname=SIGCOMM '23
+|confname=MobiCom '23
-|link=https://dl.acm.org/doi/abs/10.1145/3603269.3604849
+|link=https://dl.acm.org/doi/abs/10.1145/3570361.3592530
-|title=Network Load Balancing with In-network Reordering Support for RDMA
+|title=MetaStream: Live Volumetric Content Capture, Creation, Delivery, and Rendering in Real Time
-|speaker=Jiyi
+|speaker=Jiale
-|date=2023-12-21}}
+|date=2024-01-04}}
 {{Resource:Previous_Seminars}}

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Difference between revisions of "Resource:Seminar"

Revision as of 20:20, 2 January 2024

Contents

Latest

History

2024

2023

2022

2021

2020

2019

2018

2017

Instructions