Accepted Papers of the Main Conference
ACM SIGCOMM 2018
SIGCOMM is the flagship annual conference of the ACM Special Interest Group on Data Communication (SIGCOMM) on the applications, technologies, architectures, and protocols for computer communication.
1- Elastic Sketch: Adaptive and Fast Network-wide Measurements
Tong Yang, Jie Jiang, Peng Liu (PKU, China), Qun Huang (CAS, China), Junzhi Gong, Yang Zhou (PKU, China), Rui Miao (Alibaba, China), Xiaoming Li (PKU, China), Steve Uhlig (QMUL, UK)
2- B4 and After: Managing Hierarchy, Partitioning, and Asymmetry for Availability and Scale in Google's Software-Defined WAN
Chi-Yao Hong, Subhasree Mandal, Mohammad Al-Fares, Min Zhu, Richard Alimi, Kondapa Naidu B., Chandan Bhagat, Sourabh Jain, Jay Kaimal, Shiyu Liang, Kirill Mendelev, Steve Padgett, Faro Rabe, Saikat Ray, Malveeka Tewari, Matt Tierney, Monika Zahn, Jonathan Zolla, Joon Ong, Amin Vahdat (Google, USA)
3- FBOSS: Building Switch Software at Scale
Sean Choi (Stanford, USA), Boris Burkov, Alex Eckert, Tian Fang, Saman Kazemkhani, Rob Sherwood, Ying Zhang, Hongyi Zeng (Facebook, USA)
4- Internet Anycast: Performance, Problems and Potential
Zhihao Li, Dave Levin, Neil Spring, Bobby Bhattacharjee (UMD, USA)
5- Debugging P4 Programs With Vera
Radu Stoenescu, Dragos Dumitrescu, Matei Popovici, Lorina Negreanu, Costin Raiciu (UPB, Romania)
6- Inferring Persistent Interdomain Congestion
Amogh Dhamdhere (CAIDA, USA), David D. Clark (MIT, USA), Alexander Gamero-Garrido (CAIDA, USA), Matthew Luckie (Waikato, New Zealand), Ricky K. P. Mok, Gautam Akiwate, Kabir Gogia (CAIDA, USA), Vaibhav Bajpai (TU Munich, Germany), Alex C. Snoeren (UCSD, USA), kc claffy (CAIDA, USA)
7- MUTE: Bringing IoT to Noise Cancellation
Sheng Shen, Nirupam Roy, Junfeng Guan, Haitham Hassanieh, Romit Roy Choudhury (UIUC, USA)
8- AuTO: Scaling Deep Reinforcement Learning to Enable Datacenter-Scale Automatic Traffic Optimization
Li Chen, Justinas Lingys, Kai Chen (HKUST, China), Feng Liu (SAIC, China)
9- Synchronized Network Snapshots
Nofel Yaseen, John Sonchack, Vincent Liu (UPenn, USA)
10- Restructuring Endpoint Congestion Control
Akshay Narayan, Frank Cangialosi, Deepti Raghavan, Prateesh Goyal, Srinivas Narayan (MIT, USA), Radhika Mittal (Berkeley, USA), Mohammad Alizadeh, Hari Balakrishnan (MIT, USA)
11- AWStream: Adaptive Wide-Area Streaming Analytics
Ben Zhang (Berkeley, USA), Xin Jin (JHU, USA), Sylvia Ratnasamy, John Wawrzynek, Edward A. Lee (Berkeley, USA)
12- Sonata: Query-Driven Streaming Network Telemetry
Arpit Gupta, Rob Harrison (Princeton, USA), Marco Canini (KAUST, KSA), Nick Feamster, Jennifer Rexford (Princeton, USA), Walter Willinger (NIKSUN, USA)
13- A Measurement Study on Multi-path TCP with Multiple Cellular Carriers on High-speed Rails
Li Li, Ke Xu (Tsinghua, China), Tong Li, Kai Zheng (Huawei, China), Chunyi Peng (Purdue, USA), Dan Wang (PolyU, China), Xiangxiang Wang (Tsinghua, China), Meng Shen (BIT, China), Rashid Mijumbi (Nokia, Ireland)
14- Revisiting Network Support for RDMA
Radhika Mittal (Berkeley, USA), Alexander Shpiner (Mellanox, Israel), Aurojit Panda (ICSI and NYU, USA), Eitan Zahavi (Mellanox, Israel), Arvind Krishnamurthy (UW, USA), Sylvia Ratnasamy (Berkeley, USA), Scott Shenker (ICSI and Berkeley, USA)
15- Oboe: Auto-tuning Video ABR Algorithms to Network Conditions
Zahaib Akhtar (USC, USA), Yun Seong Nam (Purdue, USA), Ramesh Govindan (USC, USA), Sanjay Rao (Purdue, USA), Jessica Chen (UWindsor, Canada), Ethan Katz Bassett (Columbia, USA), Bruno Martins Ribeiro (Purdue, USA), Jibin Zhan, Hui Zhang (Conviva, USA)
16- SketchLearn: Relieving User Burdens in Approximate Measurement with Automated Statistical Inference
Qun Huang (CAS, China), Patrick P. C. Lee (CUHK, China), Yungang Bao (CAS, China)
17- Understanding PCIe Performance for End Host Networking
Rolf Neugebauer (Docker, USA), Gianni Antichi (Cambridge, UK), Josè Fernando Zazo (Naudit HPCN, Spain), Yury Audzevich (Cambridge, UK), Sergio López-Buedo (UAM, Spain), Andrew W. Moore (Cambridge, UK)
18- Asynchronous Convergence of Policy-Rich Distributed Bellman-Ford Routing Protocols
Matthew L. Daggitt (Cambridge, UK), Alexander J. T. Gurney (Comcast, USA), Timothy Griffin (Cambridge, UK)
19- Trident: Towards a Unified SDN Programming Framework with Automatic Updates
Kai Gao (Tsinghua, China), Taishi Nojima, Richard Yang (Yale, USA)
20- Microboxes: High Performance NFV with Customizable, Asynchronous TCP Stacks and Dynamic Subscriptions
Guyue Liu, Yuxin Ren, Mykola Yurchenko (GWU, USA), K.K. Ramakrishnan (UCR, USA), Timothy Wood (GWU, USA)
21- Homa: A Receiver-Driven Low-Latency Transport Protocol Using Network Priorities
Behnam Montazeri, Yilong Li (Stanford, USA), Mohammad Alizadeh (MIT, USA), John Ousterhout (Stanford, USA)
22- In-body Backscatter Communication and Localization
Deepak Vasisht, Guo Zhang (MIT, USA), Omid Abari (UWaterloo, Canada), Dina Katabi (MIT, USA), Hsiao-Ming Lu, Jacob Flanz (MGH, USA)
23- Enabling Deep-Tissue Networking for Miniature Medical Devices
Yunfei Ma, Zhihong Luo, Christoph Steiger (MIT, USA), Giovanni Traverso (MIT and Harvard, USA), Fadel Adib (MIT, USA)
24- PLoRa: A Passive Long-Range Data Networks from Ambient LoRa Transmissions
Yao Peng (NWU, China), Longfei Shangguan (Princeton, USA), Yue Hu, Yujie Qian, Xianshang Lin, Xiaojiang Chen, Dingyi Fang (NWU, China), Kyle Jamieson (Princeton, USA)
25- Incentivizing Censorship Measurements via Circumvention
Aqib Nisar (USC, USA), Aqsa Kashaf (CMU, USA), Ihsan Ayyub Qazi, Zartash Afzal Uzmi (LUMS, Pakistan)
26- Sincronia: Near-Optimal Network Design for Coflows
Saksham Agarwal, Shijin Rajakrishnan (Cornell, USA), Akshay Narayan (MIT, USA), Rachit Agarwal, David Shmoys (Cornell, USA), Amin Vahdat (Google, USA)
27- RADWAN: Rate Adaptive Wide Area Network
Rachee Singh (UMass, USA), Manya Ghobadi (Microsoft, USA), Klaus-Tycho Foerster (Univie, Austria), Mark Filer (Microsoft, USA), Phillipa Gill (UMass, USA)
28- Polymorphic Radios: A New Design Paradigm for Ultra-Low Power Communication
Mohammad Rostami, Jeremy Gummeson, Ali Kiaghadi, Deepak Ganesan (UMass, USA)
29- HyperLoop: Group-Based NIC-Offloading to Accelerate Replicated Transactions in Multi-Tenant Storage Systems
Daehyeok Kim (CMU, USA), Amirsaman Memaripour (UCSD, USA), Anirudh Badam, Yibo Zhu, Hongqiang Harry Liu , Jitendra Padhye, Shachar Raindel(Microsoft, USA), Steven Swanson (UCSD, USA), Vyas Sekar, Srinivasan Seshan (CMU, USA)
30- Automated Synthesis of Adversarial Workloads for Network Functions
Luis Pedrosa, Rishabh Iyer, Arseniy Zaostrovnykh, Jonas Fietz, Katerina Argyraki (EPFL, Switzerland)
31- Chameleon: Video Analytics at Scale via Adaptive Configurations and Cross-Camera Correlations
Junchen Jiang (Microsoft and UChicago, USA), Ganesh Ananthanarayanan, Peter Bodik, Siddhartha Sen (Microsoft, USA), Ion Stoica (Berkeley, USA)
32- On Low-Latency-Capable Topologies, and Their Impact on the Design of Intra-Domain Routing
Nikola Gvozdiev, Stefano Vissicchio, Brad Karp, Mark Handley (UCL, UK)
33- Leveraging Interconnections for Performance: The Serving Infrastructure of a Large CDN
Florian Wohlfart (TU Munich, Germany), Nikolaos Chatzis, Caglar Dabanoglu (Akamai, Germany), Georg Carle (TU Munich, Germany), Walter Willinger (NIKSUN, USA)
34- Masking Failures from Application Performance in Data Center Networks with Shareable Backup
Dingming Wu, Yiting Xia, Xiaoye Steven Sun, Xin Sunny Huang, Simbarashe Dzinamarira, T. S. Eugene Ng (Rice, USA)
35- Chorus: Truly Distributed Distributed-MIMO
Ezzeldin Hamed, Hariharan Rahul (MIT, USA), Bahar Partov (Wavelite, Canada)
36- RF-Based 3D Skeletons
Mingmin Zhao, Dina Katabi, Yonglong Tian, Hang Zhao, Mohammad Abu Alsheikh, Tianhong Li, Antonio Torralba, Rumen Hristov (MIT, USA)
37- Networking across Boundaries: Enabling Communication through the Water-Air Interface
Francesco Tonolini, Fadel Adib (MIT, USA)
38- Fast Millimeter Wave Beam Alignment
Haitham Hassanieh (UIUC, USA), Omid Abari (UWaterloo, Canada), Michael Rodriguez (MIT, USA), Mohammed Abdelghany (UCSB, USA), Dina Katabi, Piotr Indyk (MIT, USA)
39- p4v: Practical Verification for Programmable Data Planes
Jed Liu (Barefoot Networks), William Hallahan (Yale University), Cole Schlesinger, Milad Sarif, Jeongkeun Lee (Barefoot Networks), Robert Soule (Università della Svizzera italiana), Han Wang, Calin Cascaval (Barefoot Networks), Nick McKeown (Stanford University), Nate Foster (Cornell University)
40- Control Plane Compression
Ryan Beckett, Aarti Gupta (Princeton, USA), Ratul Mahajan (Intentionet, USA), David Walker (Princeton, USA)
▫️ مرکز آموزشهای تخصصی کوتاه مدت دانشگاه ارومیه برگزار می کند:
⭕️ "کارگاه فهم تکنولوژی بلاکچین و ارزهای دیجیتال: بیتکوین و اتریوم"
مدرسین دوره:
مهندس آزاده خزالی
مهندس سیما صبحی
مهندس احسان مومنی بشیوسقه
سخنران ویژه کارگاه: خانم دکتر شایسته، استاد تمام مهندسی برق-مخابرات دانشگاه ارومیه و عضو پژوهشکده مخابرات نظری دانشگاه صنعتی شریف
زمان برگزاری کارگاه:
روز چهارشنبه ۲۷ شهریور ماه ۱۳۹۸ ساعت 9 صبح تا 13:30 ظهر (ویژه همکاران دانشگاه ارومیه)
روز دوشنبه ۲۲ مهر ماه ۱۳۹۸ ساعت 9 صبح تا 13:30 ظهر (ویژه دانشجویان)
مکان برگزاری: سالن همایش دانشکده علوم، دانشگاه ارومیه
برای اطلاعات بیشتر لطفاً با شماره تلفن 09141453288 و یا شماره 33450111 داخلی 119-خانم رزاقی تماس حاصل نمایید.
Applications of Cloud-IoT:
هدف ابر (اینترنت) اشیاء به عنوان چهارمین انقلاب صنعتی توانمندسازی اشیاء برای اتصال در هر زمان و در هر مکانی، با هر چیزی و هر شخصی است که از هر مسیر یا شبکه و خدمتی به صورت ایده آل استفاده می کند. این فناوری جدید به حضور نافذ محیطی توجه دارد و جهانی که به شکل واقعی، دیجیتال و مجازی است و به سمت شکل گیری محیط های هوشمند، همگرا می شوند. این فناوری در حوزههای مختلف نظیر انرژی، حمل و نقل و سلامت مورد بهره برداری قرار می گیرد. (مرکز تحقیقات ابر اشیا دانشگاه گلستان)
True blockchain has five elements.
Distribution: Blockchain participants are located physically apart from each other and are connected on a network. Each participant operating a full node maintains a complete copy of a ledger that updates with new transactions as they occur.
Encryption: Blockchain uses technologies such as public and private keys to record the data in the blocks securely and semi-anonymously (participants have pseudonyms). The participants can control their identity and other personal information and share only what they need to in a transaction.
Immutability: Completed transactions are cryptographically signed, time-stamped and sequentially added to the ledger. Records cannot be corrupted or otherwise changed unless the participants agree on the need to do so.
Tokenization: Transactions and other interactions in a blockchain involve the secure exchange of value. The value comes in the form of tokens, but can represent anything from financial assets to data to physical assets. Tokens also allow participants to control their personal data, a fundamental driver of blockchain’s business case.
Decentralization: Both network information and the rules for how the network operates are maintained by nodes on the distributed network due to a consensus mechanism. In practice, decentralization means that no single entity controls all the computers or the information or dictates the rules.
Reference: Gartner
کارگاه تکنولوژی بلاکچین و رمزارز ها
آزمایشگاه تخصصی بلاکچین مرکز تخصصی آپا دانشگاه گلستان در نظر دارد کارگاه تکنولوژی بلاکچین و رمزارزها را در روز چهارشنبه مورخ ۶ آذر 1398 در سالن رشد دانشگاه گلستان برگزار نماید. لذا از علاقهمندان دعوت میشود در این کارگاه شرکت نمایند.
سرفصلها:
*معرفی تکنولوژی بلاکچین و تعریف آن و بررسی ساختار و سازوکار آن
*معرفی پلتفرم متنباز Hyperledger
*ممعرفی پلتفرم Ethereum
*بررسی کاربردهای بلاک چین در حوزه های مختلف
-مدیریت زنجیره تامین
-کشاورزی
-اینترنت اشیا
*معرفی دو پروژه داخلی در حوزه بلاک چین و توضیح مختصر آنها
-کارچین، سامانه خدمات حمل ونقل مبتنی بر تکنولوژی بلاک چین
-شبکه ققنوس و توکن پیمان
*تعریف رمزارز (بررسی تعاریف ارائه شده توسط بانک مرکزی ایران و مرکز پژوهشهای مجلس و اامات آن)
*معرفی برخی از رمزارزها
-Bitcoin
-Ethereum
-Bitcoin Cash
-Ripple
-litecoin
*قراردادهای هوشمند و چگونگی توسعه آنها، معرفی مختصر زبان برنامه نویسی Solidity
*بررسی نیاز به آزمایشگاه بلاک چین برای پرداختن به کاربردهای تحقیقاتی و صنعتی بلاک چین در استان گلستان و ایجاد ارتباط بین صنعت و دانشگاه
زمان برگزاری: ششم آذر ماه 1398، ساعت 08:30 الی 11:30
مکان برگزاری: دانشگاه گلستان، سالن رشد
مدرس: مهندس احسان مومنی بشیوسقه
لینک ثبتنام: https://gucert.ir/blockchain/
Cisco SD-WAN SEN Components:
+ vManage Network Management System
+ vSmart Controller
+ vBond Orchestrator
+ vEdge Router
Of these four components, the vEdge router can be a Cisco SD-WAN hardware device or software that runs as a virtual machine, and the remaining three are software-only components. The software vEdge router, vManage NMS, and vSmart controller software run on servers, and the vBond orchestrator software runs as a process (daemon) on a vEdge router.
Reference: Cisco
DevOps is a set of practices that automates the processes between software development and IT teams, in order that they can build, test, and release software faster and more reliably. The concept of DevOps is founded on building a culture of collaboration between teams that historically functioned in relative siloes. The promised benefits include increased trust, faster software releases, ability to solve critical issues quickly, and better manage unplanned work.
- Atlassian
در شکل زیر دیاگرام Cisco SD-WAN و اجزای تشکیل دهنده آن را مشاهده میکنید. اجزای تشکیل دهنده Cisco SD-WAN مطابق آنچه در تصویر زیر میبینیم، عبارتند از:
vManage
vBond
vAnalytics
vSmart Controllers
vEdge Routers
و شامل سه لایه میباشد که عبارتند از:
Management / Orchestration Plane
Control Plane
Data Plane
The intent of Business Process of Reengineering is to make organizations significantly more flexible, responsive, efficient, and effective for their customers, employees and other stakeholders.
When process of reengineering is applied, a business’s priorities must change in the following ways:
+ From manager/owner to customer focus.
+ From controlled workers to empowered, involved process owners and decision makers.
+ From activity-based work to a results orientation.
+ From scorekeeping to leading and teaching so that people measure their own results.
+ From functional (vertical) to process (horizontal/cross functional) orientation.
+ From serial to simultaneous
+ From complex to simple.
+ From status quo to inventing new systems and processes and looking toward the future.
Ref: Consultus
Management consultants help organisations to solve issues, create value, maximize growth and improve business performance. They use their business skills to provide objective advice and expertise and help an organization to develop any specialist skills that it may be lacking.
Your role is to identify options for the organization and suggest recommendations for change, as well as advising on additional resources to implement solutions.
As a management consultant, you'll need to:
- carry out research and data collection to understand the organization
- conduct analysis
- interview the client's employees, management team and other stakeholders
- run focus groups and facilitate workshops - prepare business proposals and presentations
- identify issues and form hypotheses and solutions
- present findings and recommendations to clients
- implement recommendations or solutions and ensure the client receives the necessary assistance to carry it all out
- manage projects and programs
- lead and manage those within the team, including analysts
- liaise with the client to keep them informed of progress and to make relevant decisions.
درباره این سایت