QBIKGDP Through RXE
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Uila Supported Apps
Uila Supported Applications and Protocols updated Oct 2020 Application/Protocol Name Full Description 01net.com 01net website, a French high-tech news site. 050 plus is a Japanese embedded smartphone application dedicated to 050 plus audio-conferencing. 0zz0.com 0zz0 is an online solution to store, send and share files 10050.net China Railcom group web portal. This protocol plug-in classifies the http traffic to the host 10086.cn. It also 10086.cn classifies the ssl traffic to the Common Name 10086.cn. 104.com Web site dedicated to job research. 1111.com.tw Website dedicated to job research in Taiwan. 114la.com Chinese web portal operated by YLMF Computer Technology Co. Chinese cloud storing system of the 115 website. It is operated by YLMF 115.com Computer Technology Co. 118114.cn Chinese booking and reservation portal. 11st.co.kr Korean shopping website 11st. It is operated by SK Planet Co. 1337x.org Bittorrent tracker search engine 139mail 139mail is a chinese webmail powered by China Mobile. 15min.lt Lithuanian news portal Chinese web portal 163. It is operated by NetEase, a company which 163.com pioneered the development of Internet in China. 17173.com Website distributing Chinese games. 17u.com Chinese online travel booking website. 20 minutes is a free, daily newspaper available in France, Spain and 20minutes Switzerland. This plugin classifies websites. 24h.com.vn Vietnamese news portal 24ora.com Aruban news portal 24sata.hr Croatian news portal 24SevenOffice 24SevenOffice is a web-based Enterprise resource planning (ERP) systems. 24ur.com Slovenian news portal 2ch.net Japanese adult videos web site 2Shared 2shared is an online space for sharing and storage. -
Red Hat Enterprise Linux 3 Security Guide
Red Hat Enterprise Linux 3 Security Guide Red Hat Enterprise Linux 3: Security Guide Copyright © 2003 by Red Hat, Inc. Red Hat, Inc. 1801 Varsity Drive Raleigh NC 27606-2072 USA Phone: +1 919 754 3700 Phone: 888 733 4281 Fax: +1 919 754 3701 PO Box 13588 Research Triangle Park NC 27709 USA rhel-sg(EN)-3-Print-RHI (2003-07-25T17:12) Copyright © 2003 by Red Hat, Inc. This material may be distributed only subject to the terms and conditions set forth in the Open Publication License, V1.0 or later (the latest version is presently available at http://www.opencontent.org/openpub/). Distribution of substantively modified versions of this document is prohibited without the explicit permission of the copyright holder. Distribution of the work or derivative of the work in any standard (paper) book form for commercial purposes is prohibited unless prior permission is obtained from the copyright holder. Red Hat, Red Hat Network, the Red Hat "Shadow Man" logo, RPM, Maximum RPM, the RPM logo, Linux Library, PowerTools, Linux Undercover, RHmember, RHmember More, Rough Cuts, Rawhide and all Red Hat-based trademarks and logos are trademarks or registered trademarks of Red Hat, Inc. in the United States and other countries. Linux is a registered trademark of Linus Torvalds. Motif and UNIX are registered trademarks of The Open Group. XFree86 is a trademark of The XFree86 Project, Inc, and is pending registration. Intel and Pentium are registered trademarks of Intel Corporation. Itanium and Celeron are trademarks of Intel Corporation. AMD, Opteron, Athlon, Duron, and K6 are registered trademarks of Advanced Micro Devices, Inc. -
A Reliable Real-Time Transport Protocol for Networked Control
AReliableReal-TimeTransportProtocolforNetworked Control Systems over Wireless Networks (Research Master) ATHESISSUBMITTEDTO THE SCHOOL OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE OF QUEENSLAND UNIVERSITY OF TECHNOLOGY IN FULFILMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF INFORMATION TECHNOLOGY (RESEARCH) Xiaohan Shi School of Electrical Engineering and Computer Science Queensland University of Technology December 11, 2012 Copyright in Relation to This Thesis !c Copyright 2012 by Xiaohan Shi. All rights reserved. Statement of Original Authorship The work contained in this thesis has not been previously submitted to meet requirements for an award at this or any other higher education institution. To the best of my knowledge and belief, the thesis contains no material previously published or written by another person except where due reference is made. Signature: QUT Verified Signature Date: i ii To my family iii iv Abstract Deploying wireless networks in networked control systems (NCSs) has become more and more popular during the last few years. As a typical type of real-time control systems, an NCS is sensitive to long and nondeterministic time delay and packetlosses.However,thenatureof the wireless channel has the potential to degrade the performance of NCS networks in many aspects, particularly in time delay and packet losses. Transport layer protocols could play an important role in providing both reliable and fast transmission service to fulfill NCS’s real-time transmission requirements. Unfortunately, none of the existing transport protocols, including the Transport Control Protocol (TCP) and the User Datagram Protocol (UDP), was designed for real-time control applications. Moreover, periodic data and sporadic data are two types of real-time data traffic with different priorities in an NCS.Duetothelackofsupportfor prioritized transmission service, the real-time performance for periodic and sporadic data in an NCS network is often degraded significantly, particularly under congested network conditions. -
Porte TCP/IP 19/09/2021
1 MarkOne Tools Porte TCP/IP 19/09/2021 1 PORTS 0F TCP/IP Protocols and Services Introduction The port numbers are divided into three ranges: the Well Known Ports: are those from 0 through 1023. DCCP Well Known ports SHOULD NOT be used without IANA registration. The registration procedure is defined in [RFC4340], Section 19.9. the Registered Ports: are those from 1024 through 49151. DCCP Registered ports SHOULD NOT be used without IANA registration. The registration procedure is defined in [RFC4340], Section 19.9. the Dynamic and/or Private Ports: are those from 49152 through 65535 PLEASE NOTE THE FOLLOWING: 1. UNASSIGNED PORT NUMBERS SHOULD NOT BE USED. THE IANA WILL ASSIGN THE NUMBER FOR THE PORT AFTER YOUR APPLICATION HAS BEEN APPROVED. 2. ASSIGNMENT OF A PORT NUMBER DOES NOT IN ANY WAY IMPLY AN ENDORSEMENT OF AN APPLICATION OR PRODUCT, AND THE FACT THAT NETWORK TRAFFIC IS FLOW- ING TO OR FROM A REGISTERED PORT DOES NOT MEAN THAT IT IS "GOOD" TRAFFIC. FIREWALL AND SYSTEM ADMINISTRATORS SHOULD CHOOSE HOW TO CONFIGURE THEIR SYSTEMS BASED ON THEIR KNOWLEDGE OF THE TRAFFIC IN QUESTION, NOT WHETHER THERE IS A PORT NUMBER REGISTERED OR NOT. Socket: è costituito dal concatenamento di un indirizzo IP con il numero di porta di una specifica applicazione (p.es. 10.65.10.13:2001) TCP/IP protocols Port Name Alias 0 IP IP 1 icmp ICMP 3 ggp GGP 6 tcp TCP 8 egp EGP 12 pup PUP 17 udp UDP 20 hmp HMP 22 xns-idp XNS-IDP 27 rdp RDP 66 rvd RVD 1 last updated 2007-01-24 2 MarkOne Tools Porte TCP/IP 19/09/2021 WELL KNOWN PORT NUMBERS The Well Known Ports are assigned by the IANA and on most systems can only be used by system (or root) processes or by programs executed by privileged users. -
ABBREVIATIONS EBU Technical Review
ABBREVIATIONS EBU Technical Review AbbreviationsLast updated: January 2012 720i 720 lines, interlaced scan ACATS Advisory Committee on Advanced Television 720p/50 High-definition progressively-scanned TV format Systems (USA) of 1280 x 720 pixels at 50 frames per second ACELP (MPEG-4) A Code-Excited Linear Prediction 1080i/25 High-definition interlaced TV format of ACK ACKnowledgement 1920 x 1080 pixels at 25 frames per second, i.e. ACLR Adjacent Channel Leakage Ratio 50 fields (half frames) every second ACM Adaptive Coding and Modulation 1080p/25 High-definition progressively-scanned TV format ACS Adjacent Channel Selectivity of 1920 x 1080 pixels at 25 frames per second ACT Association of Commercial Television in 1080p/50 High-definition progressively-scanned TV format Europe of 1920 x 1080 pixels at 50 frames per second http://www.acte.be 1080p/60 High-definition progressively-scanned TV format ACTS Advanced Communications Technologies and of 1920 x 1080 pixels at 60 frames per second Services AD Analogue-to-Digital AD Anno Domini (after the birth of Jesus of Nazareth) 21CN BT’s 21st Century Network AD Approved Document 2k COFDM transmission mode with around 2000 AD Audio Description carriers ADC Analogue-to-Digital Converter 3DTV 3-Dimension Television ADIP ADress In Pre-groove 3G 3rd Generation mobile communications ADM (ATM) Add/Drop Multiplexer 4G 4th Generation mobile communications ADPCM Adaptive Differential Pulse Code Modulation 3GPP 3rd Generation Partnership Project ADR Automatic Dialogue Replacement 3GPP2 3rd Generation Partnership -
High Speed WAN Data Transfers for Science
1 Breaking the 1 GByte/sec Barrier? High speed WAN data transfers for science S. Ravot, J. Bunn, H. Newman, Y. Xia, D. Nae, X. Su, California Institute of Technology 1200 E California Blvd, Pasadena CA 91125 O. Martin CERN 1211 Geneva 23, Switzerland In this paper we describe the current state of the art in when the bandwidth and the latency increase. In particular, equipment, software and methods for transferring large TCP’s additive increase policy limits its ability to use spare scientific datasets at high speed around the globe. We bandwidth. first present a short introductory history of the use of In this paper we describe experiments that illustrate TCP’s networking in HEP, some details on the evolution, limitations. We report on our measurements using the current status and plans for the LHCnet, one of the largest network testbeds available Caltech/CERN/DataTAG transAtlantic link, and a today, having 10 Gb/s links connecting CERN in Geneva, description of the topology and capabilities of the Starlight in Chicago and the Caltech campus in Pasadena. research networks between CERN and HEP institutes In light of TCP’s limitations, we then explain how we have in the USA. We follow this with some detailed material tuned the end-systems and TCP Reno parameters to achieve on the hardware and software environments we have record breaking data transfers. Finally, we present an used in collaboration with international partners experiment currently underway in our group to transfer (including CERN and DataTAG) to break several High Energy Physics data files from a disk server at CERN Internet2 land speed records over the last couple of via a 10Gb/s network path to a disk server at Caltech (a years. -
Prosafe Gigabit Quad WAN SSL VPN Firewall SRX5308 CLI Reference Manual
ProSafe Gigabit Quad WAN SSL VPN Firewall SRX5308 CLI Reference Manual 350 East Plumeria Drive San Jose, CA 95134 USA August 2012 202-11138-01 v1.0 ProSafe Gigabit Quad WAN SSL VPN Firewall SRX5308 © 2012 NETGEAR, Inc. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any means without the written permission of NETGEAR, Inc. NETGEAR, the NETGEAR logo, and Connect with Innovation are trademarks and/or registered trademarks of NETGEAR, Inc. and/or its subsidiaries in the United States and/or other countries. Information is subject to change without notice. Other brand and product names are registered trademarks or trademarks of their respective holders. © 2012 All rights reserved. Technical Support Thank you for choosing NETGEAR. To register your product, get the latest product updates, get support online, or for more information about the topics covered in this manual, visit the Support website at http://support.netgear.com. Phone (US & Canada only): 1-888-NETGEAR Phone (Other Countries): Check the list of phone numbers at http://support.netgear.com/app/answers/detail/a_id/984. Statement of Conditions To improve internal design, operational function, and/or reliability, NETGEAR reserves the right to make changes to the products described in this document without notice. NETGEAR does not assume any liability that may occur due to the use, or application of, the product(s) or circuit layout(s) described herein. Revision History Publication Part Number Version Publish Date Comments 202-11138-01 1.0 August 2012 First publication 2 Contents Chapter 1 Introduction Command Syntax and Conventions. -
Annex Communications Server Network Administrator's Guide 166
1\N"l:X COMMUNICATIONS SERVER Network Administrator's Guide )xy1og1ca] Copyright @ 1990 Xylogics, Inc. 166- 024- 000 Revision E November 1991 1\N-41:X COMMUNICATIONS SERVER Network Administrator's Guide 166-024-000 Revision E November 1991 Notice The information in this manual is subject to change without notice, and should not be construed as a commitment by Xylogics, Inc. Xylogics assumes no responsibility for any errors that may appear in this document. Annex, Annex II, Annex lie, Annexthree, and Annex 3 are trademarks of Xylogics, Inc. UNIX is a registered trademark of AT&T. Ethernet is a registered trademark of Xerox Corporation. IBM is a registered trademark of the International Business Machines Corporation. XENIX Is a trademark of Microsoft Corporation. LAT is a trademark of Digital Equipment Corporation. Postscript is a registered trademark of Adobe Systems Incorporated. Copyright© 1990 Xylogics, Inc. Printed in the USA. Contents Preface .................................................. xiii General . xiii Supported Version . xiv Printing Conventions . xiv Related Documents . xv Book A: Overview Chapter 1: Introduction to the Annex ....................... A-1 General . A-1 Annex Capabilities . A-2 Network Administrator (na) Utility . A-2 Command Line Interpreter (CLI) . A-3 Customizing the User Interface . A-3 Expedited Remote Procedure Call Daemon (erpcd) . A-3 Extensive Security System . A-3 Port Servers and Rotaries . A-4 UNIX Host-originated Connections.................................. A-5 Name Server Support . A-5 Network Management . A-6 Full Routing . A-6 Multi-protocol Support . A-7 Applications for the Annex . A-7 Connecting Terminals . A-7 Connecting Remote Hosts, Networks, and Annexes.................... A-8 Connecting PCs to the Network . -
Appendix a Protocol Filters
APPENDIX A Protocol Filters The tables in this appendix list some of the protocols that you can filter on the access point. In each table, the Protocol column lists the protocol name, the Additional Identifier column lists other names for the same protocol, and the ISO Designator column lists the numeric designator for each protocol. Cisco IOS Software Configuration Guide for Cisco Aironet Access Points A-1 Appendix A Protocol Filters Table A-1 EtherType Protocols Protocol Additional Identifier ISO Designator ARP — 0x0806 RARP — 0x8035 IP — 0x0800 Berkeley Trailer Negotiation — 0x1000 LAN Test — 0x0708 X.25 Level3 X.25 0x0805 Banyan — 0x0BAD CDP — 0x2000 DEC XNS XNS 0x6000 DEC MOP Dump/Load — 0x6001 DEC MOP MOP 0x6002 DEC LAT LAT 0x6004 Ethertalk — 0x809B Appletalk ARP Appletalk 0x80F3 AARP IPX 802.2 — 0x00E0 IPX 802.3 — 0x00FF Novell IPX (old) — 0x8137 Novell IPX (new) IPX 0x8138 EAPOL (old) — 0x8180 EAPOL (new) — 0x888E Telxon TXP TXP 0x8729 Aironet DDP DDP 0x872D Enet Config Test — 0x9000 NetBUI — 0xF0F0 Cisco IOS Software Configuration Guide for Cisco Aironet Access Points A-2 Appendix A Protocol Filters Table A-2 IP Protocols Protocol Additional Identifier ISO Designator dummy — 0 Internet Control Message Protocol ICMP 1 Internet Group Management Protocol IGMP 2 Transmission Control Protocol TCP 6 Exterior Gateway Protocol EGP 8 PUP — 12 CHAOS — 16 User Datagram Protocol UDP 17 XNS-IDP IDP 22 ISO-TP4 TP4 29 ISO-CNLP CNLP 80 Banyan VINES VINES 83 Encapsulation Header encap_hdr 98 Spectralink Voice Protocol SVP 119 Spectralink raw -
The Impact of Transport Protocol, Packet Size, and Connection Type on the Round Trip Time
Bachelor of Science in Computer Science with specialization in Game Programming June 2017 The impact of transport protocol, packet size, and connection type on the round trip time Tobias Kling Faculty of Computing Blekinge Institute of Technology SE–371 79 Karlskrona, Sweden i This thesis is submitted to the Faculty of Computing at Blekinge Institute of Technology in partial fulfillment of the requirements for the degree of Degree of Bachelor of Science in Computer Science with specialization in Game Programming. The thesis is equivalent to 10 weeks of full-time studies. Contact Information: Author(s): Tobias Kling E-mail: [email protected] University Advisor: Francisco Lopez Luro Department of Creative Technologies Faculty of Computing Internet : www.bth.se Blekinge Institute of Technology Phone : +46 455 38 50 00 SE–371 79 Karlskrona, Sweden Fax : +46 455 38 50 57 Abstract While developing networking for games and applications, developers have a list of network specific requirements to be met as well as decide how to meet them. It is not always easy to decide what protocol is best suited for a given network configuration, or what is the best size of a data packet. By performing a comparative analysis, it becomes possible to identify how proto- cols, packet size, and network configuration impact the one-way travel time and throughput of a given implementation. The result shows how the different implementations compared against each other and the analysis tries to determine why they perform as they do. This gives a good overview of the pros and cons of how TCP, TCP(N), UDP, and RakNet, behave and perform over LANs and WLANs with varying packet size. -
VMG4825-B10A User's Guide
VMG4825-B10A Wireless N VDSL2 IAD with USB Version 5.11 Edition 1, 05/2016 Quick Start Guide User’s Guide Default Login Details LAN IP Address http://192.168.1.1 Login admin, user www.zyxel.com Password 1234, user Copyright © 2016 ZyXEL Communications Corporation IMPORTANT! READ CAREFULLY BEFORE USE. KEEP THIS GUIDE FOR FUTURE REFERENCE. Screenshots and graphics in this book may differ slightly from your product due to differences in your product firmware or your computer operating system. Every effort has been made to ensure that the information in this manual is accurate. Related Documentation •Quick Start Guide The Quick Start Guide shows how to connect the VMG and access the Web Configurator. •More Information Go to support.zyxel.com to find other information on the VMG. VMG4825-B10A User’s Guide 2 Contents Overview Contents Overview User’s Guide .......................................................................................................................................14 Introducing the VMG ...............................................................................................................................15 The Web Configurator .............................................................................................................................22 Quick Start ...............................................................................................................................................29 Tutorials ..................................................................................................................................................32 -
Final-Thesis.Pdf (2.424Mb)
1 2 3 ABSTRAKT Práce pojednává o přenosu multimediálních dat v síti Internet se zaměřením na tvorbu webových stránek s využitím aplikačních rozhraní API, která jsou dostupná na stránkách společnosti Google, a tvorbu nezávislého video portálu s použitím open-source skriptů ClipBucket a PHPmotion. Rozebírána je problematika přenosu video a audio dat s využitím webových prohlížečů. Jsou zde popsány protokoly a kodeky pro streamování videa ve webových prohlížečích. Podrobně je popsána především vlastní tvorba webových stránek se začleněním aplikací API přímo do zdrojového kódu HTML, a vytvoření nezávislého video portálu s kompletní konfigurací serveru pro hosting. Jako přílohy jsou uvedeny vytvořené webové stránky s video obsahem, nezávislý video portál, laboratorní cvičení na praktické vyzkoušení a začlenění multimediálního obsahu a praktická ukázka administrace video portálu. Klíčová slova: Multimediální data, Internet, YouTube, API, ClipBucket, PHPmotion, video portal. ABSTRACT The text of this work deals with multimedia data distribution over Internet with a focus on creating web pages using application APIs that are available on Google and creating an independent video portal using open-source scripts ClipBucket and PHPmotion. There are analyzed problems of transmission of video and audio data using Web browsers. There are described protocols and codecs for video streaming in web browsers. In details it is described creating of Web sites with the inclusion of application API directly into the HTML source code and creating an independent video portal with a complete configuration of the server for hosting. As an annex the created Web pages are listed with video content and laboratory exercises on the practical test and integration of multimedia content and the practical administraton of the video portal.