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isrm:planificare [2020/04/16 13:49] dragos.niculescu |
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==== Lista Articole ==== | ==== Lista Articole ==== | ||
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== problematica 802.11: măsurători, interferență, propagare == | == problematica 802.11: măsurători, interferență, propagare == | ||
- | |23.03|{{isrm:articole:paper-reading.pdf|How to Read a Paper}} | de citit pentru parțial (18:00-19:00) | | + | |02.04|{{isrm:articole:paper-reading.pdf|How to Read a Paper}} | de citit pentru parțial (10:00-11:00); opționale: {{https://www.cs.jhu.edu/~jason/advice/how-to-read-a-paper.html|[1]}}, {{https://www.eecs.harvard.edu/~michaelm/postscripts/ReadPaper.pdf|[2]}}, {{https://gmwgroup.harvard.edu/files/gmwgroup/files/895.pdf|[3]}} | |
- | |23.03|{{isrm:articole:linklayer_roofnet.sgcom04.pdf |Link-level Measurements from an 802.11b Mesh Network}} SIGCOMM | {{isrm:cursuri:link_level_msmt_review.pdf|Dragoș Niculescu }} | | | + | |02.04|{{isrm:articole:linklayer_roofnet.sgcom04.pdf |Link-level Measurements from an 802.11b Mesh Network}} SIGCOMM | {{isrm:cursuri:link_level_msmt_review.pdf|Dragoș Niculescu }} | | |
<hidden>|24.03|{{isrm:articole:interference_map.imc07.pdf |Interference Map for 802.11 Networks}} ACM IMC | </hidden> | <hidden>|24.03|{{isrm:articole:interference_map.imc07.pdf |Interference Map for 802.11 Networks}} ACM IMC | </hidden> | ||
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== Handoff == | == Handoff == | ||
- | |30.03|{{isrm:articole:handoff-ccr03.pdf|An Empirical Analysis of the IEEE 802.11 MAC Layer Handoff Process}}, CCR | Anghel Călugăreanu | | | + | |09.04|{{isrm:articole:handoff-ccr03.pdf|An Empirical Analysis of the IEEE 802.11 MAC Layer Handoff Process}}, CCR | Mihăiță-Cătălin | PAVEL | |
- | |30.03|{{isrm:articole:SyncScanInfocom05.pdf | SyncScan Practical Fast Handoff for 802.11 Infrastructure Networks}} INFOCOM | Adrian Dudău | | | + | |09.04|{{isrm:articole:SyncScanInfocom05.pdf | SyncScan Practical Fast Handoff for 802.11 Infrastructure Networks}} INFOCOM | Camil | POPA-NICA | |
<hidden> | <hidden> | ||
| | {{isrm:articole:imc192.pdf | Understanding Handoffs in Large IEEE 802.11 Wireless | | | {{isrm:articole:imc192.pdf | Understanding Handoffs in Large IEEE 802.11 Wireless | ||
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== Adaptarea ratei, puterii == | == Adaptarea ratei, puterii == | ||
- | |06.04|{{isrm:articole:rrate_adapt_mobicom06.pdf | Robust Rate Adaptation for 802.11 Wireless Networks}} MOBICOM | Diana Niță | | | + | |16.04|{{isrm:articole:rrate_adapt_mobicom06.pdf | Robust Rate Adaptation for 802.11 Wireless Networks}} MOBICOM | Radu-Gabriel | CHIVEREANU | |
- | |06.04|{{isrm:articole:symphony_mbsys08.pdf | Synchronous Two-phase Rate and Power Control in 802.11 WLANs}} MOBISYS | Alexandra Belciu | Andrei Cristian | | + | |16.04|{{isrm:articole:symphony_mbsys08.pdf | Synchronous Two-phase Rate and Power Control in 802.11 WLANs}} MOBISYS | Dimitrie | DAVID | |
+ | |??? | [[https://blog.cerowrt.org/papers/minstrel-sigcomm-final.pdf|Minstrel, anonymous ]] | SIGCOMM submission | | ||
== Performanța 802.11, optimizări == | == Performanța 802.11, optimizări == | ||
- | |13.04|{{isrm:articole:802.11anomaly_infocom03.pdf | Performance Anomaly of 802.11b}} | Raluca Safta | | + | |23.04|{{isrm:articole:802.11anomaly_infocom03.pdf | Performance Anomaly of 802.11b}} | Alexandru | STOCHIRICI | |
- | |13.04|{{isrm:articole:FatVAP_nsdi08.pdf | FatVAP: Aggregating AP Backhaul Capacity to Maximize Throughput}} NSDI| Călin Beldeanu | | | + | |23.04|{{isrm:articole:power-thrpt-infocom15.pdf | Power-Throughput Tradeoffs of 802.11n/ac in Smartphones }} INFOCOM 2015| Valenti-gabriel | RADU| |
+ | |23.04|{{isrm:articole:FatVAP_nsdi08.pdf | FatVAP: Aggregating AP Backhaul Capacity to Maximize Throughput}} NSDI| | | | ||
<hidden> | <hidden> | ||
| |{{isrm:articole:10.1.1.82.31.pdf | Automating Cross-Layer Diagnosis | | |{{isrm:articole:10.1.1.82.31.pdf | Automating Cross-Layer Diagnosis | ||
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== Channel management == | == Channel management == | ||
- | |27.04|{{isrm:articole:part_overlap06.pdf | Partially Overlapped Channels not Considered Harmful}} SIGMETRICS | Eduard Stoica | Dan Popa | | + | |30.04|{{isrm:articole:aruba_single_channel_wp.pdf | Single Channel WLANS}} ARUBA white paper | Anne-Marie| STEGARU | |
- | |27.04|{{isrm:articole:wild_nsdi07.pdf | WiLDNet: Design and Implementation of High PerformanceWiFi Based Long Distance Networks}} NSDI | Paul Șolea | Dumitru Vlăsceanu | | + | <hidden> |
+ | |30.04|{{https://www.usenix.org/system/files/atc21-chen.pdf| FTM si PTP }}| | | | ||
+ | </hidden> | ||
+ | |30.04|{{isrm:articole:part_overlap06.pdf | Partially Overlapped Channels not Considered Harmful}} SIGMETRICS | Cristian | RADU | | ||
+ | |14.05|{{isrm:articole:distributed_channel_selection.pdf |A Self-Managed Distributed Channel Selection Algorithm for WLANs}} RAWNETS | | | | ||
<hidden> | <hidden> | ||
- | |27.04|{{isrm:articole:distributed_channel_selection.pdf |A Self-Managed Distributed Channel Selection Algorithm for WLANs}} RAWNETS | | | | ||
| |{{isrm:articole:congestion_imc05.pdf | Understanding Congestion in IEEE 802.11b Wireless Networks}} IMC | opțional | | | | |{{isrm:articole:congestion_imc05.pdf | Understanding Congestion in IEEE 802.11b Wireless Networks}} IMC | opțional | | | ||
+ | |10.05|{{isrm:articole:wild_nsdi07.pdf | WiLDNet: Design and Implementation of High PerformanceWiFi Based Long Distance Networks}} NSDI | | | | ||
</hidden> | </hidden> | ||
- | == TCP peste 802.11 == | + | == Performanță aplicații sub 802.11 == |
- | |04.05|{{isrm:articole:perf_wlan_sigmetrics05.pdf| On the Performance Characteristics of WLANs: Revisited}} SIGMETRICS| Alexandru Vasile | Alexandra Pârvulescu| | + | |14.05|{{./articole/denseap-nsdi08.pdf | Designing High Performance Enterprise Wi-Fi Networks}} NSDI| Ionel | Pătrașcu | |
- | |04.05 | {{isrm:articole:12._understanding_tcp_fairness_over_wireless_lans.pdf | Understanding TCP fairness over Wireless LAN}} INFOCOM | Claudiu Vasile | Liviu Andrei Mitruță | | + | |
- | <hidden>| |{{isrm:articole:wireless_TCP_tmc96.pdf| A Comparison of Mechanisms for Improving TCP Performance over Wireless Links}} TMC| opțional | | | + | |21.05|{{isrm:articole:perf_wlan_sigmetrics05.pdf| On the Performance Characteristics of WLANs: Revisited}} SIGMETRICS| Stefan | Nedelcu | |
+ | |21.05 | {{https://www.usenix.org/system/files/conference/nsdi15/nsdi15-paper-croitoru.pdf | Towards Wifi Mobility without Fast Handover}} NSDI | | | | ||
+ | |||
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+ | <hidden> | ||
+ | |21.05 | {{isrm:articole:12._understanding_TCP_fairness_over_wireless_lans.pdf | Understanding TCP fairness over Wireless LAN}} INFOCOM | | | | ||
+ | |||
+ | | |{{isrm:articole:wireless_TCP_tmc96.pdf| A Comparison of Mechanisms for Improving TCP Performance over Wireless Links}} TMC| opțional | | | ||
</hidden> | </hidden> | ||
== Arhitecturi WiFi == | == Arhitecturi WiFi == | ||
- | |11.05|{{isrm:articole:aruba_single_channel_wp.pdf | Single Channel WLANS}} ARUBA white paper | Costin Țone | | | + | |
- | |11.05|{{./articole/denseap-nsdi08.pdf | Designing High Performance Enterprise Wi-Fi Networks}} NSDI| Andreea Dumitrache | Violeta Amza | | + | |
<hidden> | <hidden> | ||
| |{{isrm:articole:cisco_wlan_design_guide.pdf | CISCO WLAN design guide for high density}} CISCO white paper | opțional | | | | |{{isrm:articole:cisco_wlan_design_guide.pdf | CISCO WLAN design guide for high density}} CISCO white paper | opțional | | | ||
</hidden> | </hidden> | ||
- | == Poziționare folosind WiFi == | + | == Alte subiecte (doar două articole, în funcție de optiuni) == |
- | |18.05|{{isrm:articole:radar_00.pdf | RADAR: An In-Building RF-based User Location and Tracking System}} INFOCOM| Nicolae Ghinea | Cristian Negru | | + | |28.05| {{isrm:articole:radar_00.pdf | RADAR: An In-Building RF-based User Location and Tracking System}} INFOCOM 2000| Răzvan | DINU | |
- | |18.05 |{{isrm:articole:horus_mobisys05.pdf | Horus WLAN Location Determining System}} MOBISYS| Cristian Duțescu | Roxana Nicolescu | | + | |28.05| Air-FI: [[https://news.ycombinator.com/item?id=25440078|Generating Covert Wi-Fi Signals from Air-Gapped Computers]] 2020 | | | |
+ | | |{{isrm:articole:nsdi15-paper-adib.pdf | Multi-Person Localization via RF Body Reflections }} NSDI 2015| Claudiu-Cătălin | PUMNEA | | ||
+ | |28.05 |{{isrm:articole:nsdi16-paper-kellogg.pdf | Passive Wi-Fi: Bringing Low Power to | ||
+ | Wi-Fi Transmissions }} NSDI 2016 | | | | ||
+ | | |[[https://cs.uwaterloo.ca/~brecht/courses/856-802.11-Network-Performance-2014/readings/rate-adaptation/predictable-packet-delivery-sigcomm-2010.pdf|Sigcomm 2010]] | Predictable 802.11 Packet Delivery from Wireless Channel Measurements| | | | ||
<hidden> | <hidden> | ||
- | | |{{isrm:articole:nsdi15-paper-adib.pdf | Multi-Person Localization via RF Body Reflections }} NSDI 2015| opțional | | + | |
+ | | |{{isrm:articole:horus_mobisys05.pdf | Horus WLAN Location Determining System}} MOBISYS| | | | ||
</hidden> | </hidden> | ||
== Alte subiecte: multi-hop, 60GHz, backscatter, consum == | == Alte subiecte: multi-hop, 60GHz, backscatter, consum == | ||
- | <hidden>|25.05|{{isrm:articole:nsdi16-paper-kellogg.pdf | Passive Wi-Fi: Bringing Low Power to | + | | |{{isrm:articole:nsdi16-paper-kellogg.pdf | Passive Wi-Fi: Bringing Low Power to |
- | Wi-Fi Transmissions }} NSDI 2016 | Laura Fluerătoru | | </hidden> | + | Wi-Fi Transmissions }} NSDI 2016 | | | |
- | |25.05|Positioning Using UWB (ETH Zurich Master Thesis) 2019 | Laura Fluerătoru | | | + | | |{{ isrm:articole:p5-zhu.pdf | Demystifying 60GHz Outdoor Picocells}} MOBICOM 2014 | | |
- | + | ||
- | <hidden> | + | |
- | |23.05|{{ isrm:articole:p5-zhu.pdf | Demystifying 60GHz Outdoor Picocells}} MOBICOM 2014 | | | + | |
| | {{ http://xyzhang.ucsd.edu/papers/SSur_SIGMETRICS_60GHzLink.pdf | 60 GHz Indoor Networking through Flexible Beams: A Link-Level Profiling Sigmetrics 2015}} | | | | | {{ http://xyzhang.ucsd.edu/papers/SSur_SIGMETRICS_60GHzLink.pdf | 60 GHz Indoor Networking through Flexible Beams: A Link-Level Profiling Sigmetrics 2015}} | | | ||
- | |23.05|{{isrm:articole:power-thrpt-infocom15.pdf | Power-Throughput Tradeoffs of 802.11n/ac in Smartphones }} INFOCOM 2015| | | + | | |{{isrm:articole:etx_2003.pdf | A High-Throughput Path Metric for Multi-Hop Wireless Routing}} MOBICOM | | | |
- | |18.01|{{isrm:articole:etx_2003.pdf | A High-Throughput Path Metric for Multi-Hop Wireless Routing}} MOBICOM | | | | + | | | Air-FI: [[https://news.ycombinator.com/item?id=25440078|Generating Covert Wi-Fi Signals from Air-Gapped Computers]] | | |
- | </hidden> | + | | | AM Radio [[https://news.ycombinator.com/item?id=25452435| on computers without radio transmitting hardware]] | | |
+ | | | Ant+ | MakeShift: Security Analysis of Shimano Di2 Wireless Gear Shifting in Bicycles | | | | ||