分类：设计开发    下载：0    浏览：10    时间：2026-01-28

1 SDK History .8 2 Version History.12 3 Overview of the Ralink AP Demo Board13 3.1 RT2880. 13 3.2 RT3052. 15 3.3 RT3883. 17 3.4 RT3352. 20 4 AP SDK source code overview22 5 Tool-chain 23 5.1 Install toolchain 23 5.2 Install LZMA Utility. 23 5.3 Install mksquashfs utility 23 6 Boot loader.24 6.1 Uboot Configuration  24 6.2 Build the uboot Image. 25 6.3 Burn the uboot image 25 7 User Library27 7.1 Library Configuration 27 7.2 Library Porting 27 7.3 Build user library. 28 8 User Application .29 8.1 Ralink Proprietary Applications. 8.1.1 ATED 29 8.1.2 REG. 29 8.1.3 FLASH 29 8.1.4 GPIO. 30 8.1.5 MII_MGR. 30 8.1.6 MTD. 31 8.1.7 NVRAM. 32 8.1.8 SPICMD. 33 8.1.9 I2CCMD . 33 8.1.10 Script. 33 8.2 goahead  33 8.3 nvram library  33 8.4 wsc_upnp . 34 8.5 iptables. 34 8.6 ntpclient. 34 8.7 mtd-utils 34 8.8 ppp-2.4.2. 34 8.9 bridge-utils 34 8.10 wireless_tools 35 8.11 inadyn . 35 8.12 zebra-0.95a_ripd . 35 8.13 wpa_supplicant-0.5.7 . 35 8.14 totd-1.5 35 8.15 samba-3.0.2 35 8.16 radvd-1.0  36 8.17 pptp-client 36 8.18 rp-l2tp-0.4 36 8.19 ctorrent-dnh3.2 36 8.20 dhcp6. 36 8.21 dnsmasq-2.40. 36 8.22 igmpproxy 37 8.23 matrixssl-1.8.3 37 8.24 rp-pppoe-3.8 37 8.25 usb_modeswitch-0.9.5 37 8.26 Port new user application . 38 9 Linux Kernel.40 9.1 Linux configuration . 40 9.2 Change Flash/DRAM Size 42 9.3 Change Switch Controller in RT2880 Platform. 42 9.4 Update User/Kernel default settings 43 9.5 Compile Linux image . 44 9.6 Port new Linux kernel module. 44 9.7 Execute commands at boot up time . 46 9.8 Add new files in RootFs 9.9 Image DownSize . 46 10 Flash Layout and Firmware Upgrade.50 10.1 Flash Layout 50 10.2 Firmware Upgrade 50 10.2.1 By Uboot  51 10.2.2 By WebUI 51 11 FAQ53 11.1 RT2880 Default password/UART/networking setting. 53 11.2 System requirements for the host platform 53 11.3 How to add new default parameter in flash. 54 11.3.1 Example 1 54 11.3.2 Example 2 54 11.4 Enable Ethernet Converter Feature  55 11.5 Change RF chip from RT2820 to RT2850 on the RT2880 platform. 57 11.6 How to change the Ethernet MAC address 57 11.7 How to configure GPIO ports 58 11.8 Use GPIO to turn on LED  59 11.9 Use LED firmware to turn on LED. 63 11.10 How to start the telnet server 66 11.10.1 busybox setting  66 11.10.2 Linux setting. 66 11.11 11n bit rate derivation 68 11.12 How to build a single image for the flash programmer  70 11.13 How to power down the rt305x Ethernet ports 72 11.14 How to enable NFS client 73 11.15 How to add a new language to the web UI. 75 11.16 How to enable watchdog in RT305x . 76 11.17 How to enable USB storage on the RT305x platform 76 11.18 How to enable USB automount on the RT305x platform. 78 11.19 How to enable software QoS . 78 11.20 Software QoS information . 81 11.20.1 Software QoS – Preface 81 11.20.2 Software QoS – Concept . 81 11.20.3 Software QoS – Usage  82 11.21 How to enable USB Ethernet (example for ASIX AX88XXX). 85 11.22 How to build a single image for the RT2880 8M flash platform 87 11.23 How to start a printer server (example for HP officejet 4355). 88 11.24 How to force the RT3052 link speed  90 11.25 How to verify IGMP snooping function . 92

分类：其它    下载：0    浏览：13    时间：2026-01-28

Abstract—With the emergence of 4k/8k video, the throughput requirement of video delivery will keep grow to tens of Gbps. Other new high-throughput and low-latency video applications including augmented reality (AR), virtual reality (VR), and online gaming, are also proliferating. Due to the related stringent requirements, supporting these applications over wireless local area network (WLAN) is far beyond the capabilities of the new WLAN standard – IEEE 802.11ax. To meet these emerging demands, the IEEE 802.11 will release a new amendment standard IEEE 802.11be – Extremely High Throughput (EHT), also known as Wireless-Fidelity (Wi-Fi) 7. This article provides the comprehensive survey on the key medium access control (MAC) layer techniques and physical layer (PHY) techniques being discussed in the EHT task group, including the channelization and tone plan, multiple resource units (multi-RU) support, 4096 quadrature amplitude modulation (4096-QAM), preamble designs, multiple link operations (e.g., multi-link aggregation and channel access), multiple input multiple output (MIMO) enhancement, multiple access point (multi-AP) coordination (e.g.,multi-AP joint transmission), enhanced link adaptation and retransmission protocols (e.g., hybrid automatic repeat request (HARQ)). This survey covers both the critical technologies being discussed in EHT standard and the related latest progresses from worldwide research. Besides, the potential developments beyond EHT are discussed to provide some possible future research directions for WLAN. Index Terms—IEEE 802.11be, EHT, Wi-Fi 7, Multi-link Operation,Multi-AP Coordination, MIMO Enhancement, HARQ.

分类：标准规范    下载：0    浏览：11    时间：2026-01-28

IEEE Standard for Local and metropolitan area networks— Frame Replication and Elimination for Reliability Approved 28 September 2017

分类：标准规范    下载：0    浏览：9    时间：2026-01-28

P802.11ay™/D4.0 Draft Standard for Information Technology – Telecommunications and Information Exchange Between Systems – Local and Metropolitan Area Networks – Specific Requirements – Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer(PHY) Specifications – Amendment 2: Enhanced throughput for operation in license-exempt bands above 45 GHz IEEE P802.11ay™/D4.0, June 2019 (amendment to IEEE P802.11REVmdTM/D2.2 as amended by IEEE P802.11ax™/D4.1)

分类：标准规范    下载：0    浏览：8    时间：2026-01-28

IEEE Standard for Information Technology— Telecommunications and Information Exchange between Systems Local and Metropolitan Area Networks— Specific Requirements Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications IEEE Std 802.11™‐2020 (Revision of IEEE Std 802.11‐2016) Approved 3 December 2020

分类：其它    下载：0    浏览：13    时间：2026-01-27

Albert Chung Senior Application Engineer Rohde & Schwarz Taiwan WIFI7技术介绍

分类：标准规范    下载：0    浏览：9    时间：2026-01-24

GB 15629.1102-2003 信息技术系统间远程通信和信息交换 局域网和城域网特定要求第11部分： 无线局域网媒体访问控制和物理层规范： 2.4GHz频段较高速物理层扩展规范 2006-1-27发布

分类：标准规范    下载：0    浏览：7    时间：2026-01-24

信息技术 系统间远程通信和信息交换局域网和城域网 特定要求 第11部分:无线局域网媒体访问控制和物理层规范:附加管理域操作规范 2006-01-27发布

分类：其它    下载：0    浏览：10    时间：2026-01-24

Abstract—While the pace of commercial scale application of Wi-Fi 6 accelerates, the IEEE 802.11 Working Group is about to complete the development of a new amendment standard IEEE 802.11be – Extremely High Throughput (EHT), also known as Wi-Fi 7, which can be used to meet the demand for the throughput of 4K/8K videos up to tens of Gbps and low-latency video applications such as virtual reality (VR) and augmented reality (AR). Wi-Fi 7 not only scales Wi-Fi 6 with doubled bandwidth, but also supports real-time applications, which brings revolutionary changes to Wi-Fi. In this article, we start by introducing the main objectives and timeline of Wi-Fi 7 and then list the latest key techniques which promote the performance improvement of Wi-Fi 7. Finally, we validate the most critical objectives of Wi-Fi 7 – the potential up to 30 Gbps throughput and lower latency. System-level simulation results suggest that by combining the new techniques, Wi-Fi 7 achieves 30 Gbps throughput and lower latency than Wi-Fi 6. Index Terms—IEEE 802.11be, Wi-Fi 7, timeline, feature,throughput, latency.

分类：其它    下载：0    浏览：10    时间：2026-01-24

Abstract—Last years we have witnessed the uprising of location-based applications, which depend on the device’scapabilities to accurately obtain their position. IEEE 802.11, foretelling the need for such applications, started the IEEE 802.11az work on Next Generation Positioning. Although this standard provides positioning enhancements for sub-6 GHz and mmWave bands, high accuracy in the order of centimeters can only be obtained in the latter band, thanks to the high temporal resolution from the multi-GHz bandwidth. This work presents the new techniques provided by IEEE 802.11az for enhanced secured positioning in the mmWave band. Additionally, this paper assesses 802.11az mmWave accuracy using a novel trigonometry solution, compares it with advanced positioning solutions, and identifies open research challenges. Index Terms—IEEE 802.11 standard, Next Generation Positioning, FTM, EDMG, mmWave

分类：其它    下载：0    浏览：11    时间：2026-01-24

IEEE 802.11 DCF协议性能分析模型 钟萍, 施海彬, 庄玉祥, 石江宏, 陈辉煌 厦门大学信息科学与技术学院, 福建厦门361005 摘要： 提出了一种改进的二维Markov链模型用于分析IEEE 802.11 DCF协议. 该模型不仅考虑实际应用中饱和业务量和非饱和业务量的情况，而且考虑DCF协议的退避计时器的冻结状态和有限的重传次数. 通过对该Markov链模型稳定状态的求解并结合M/M/1/K排队模型，导出了DCF系统性能的理论模型. 仿真结果表明，该理论模型能够精确地预测广义IEEE 802.11 DCF协议的系统性能. 关键词: 无线局域网, IEEE 802.11, 分布式协调功能, Markov链模型 Abstract: This paper proposes an improved two-dimensional Markov chain model for the performance analysis of the IEEE 802.11 DCF protocol. The model is applicable to both saturated and unsaturated traffic conditions. Moreover, it extends the existing models to take into account previously-ignored MAC layer factors such as backoff freezing and limited times of retry. In addition, by deriving the stationary state of the Markov model and considering an M/M/1/K queuing model, we further derive a theoretical model for evaluating performance of the general IEEE 802.11 DCF protocols. Accuracy of the proposed theoretical model is validated with simulation results. Key words: wireless local area network, IEEE 802.11, distributed coordination function, Markov chain model

分类：产品资料    下载：0    浏览：50    时间：2026-01-08

需要OLT PON方案和施工可联系本站。 EPON OLT WEB管理用户手册 目录 1 系统描述 1.1 描述 1.2 登录 1.3 登录状态 2 TOPO图 3 ONU列表 4 VLAN管理 5 高级设置 5.1 运行状态 5.2 系统管理 5.2.1 设备管理 5.2.2 诊断工具 5.2.3 网络接口 5.2.4 升级管理 5.2.5 时间管理 5.2.6 服务(SSH/SNMP) 5.2.7 告警列表 5.2.8 用户管理 5.3 PON管理 5.3.1 ONU阻止列表 5.3.2 上行带宽配置 5.3.3 PON设置 5.3.4 LOID允许列表 5.3.5 ONU批量升级 5.3.6 PON光诊断 5.3.7 批量配置 5.4 ONU管理 5.4.1 ONU基本信息 5.4.2 ONU端口配置 5.4.3 ONU组播管理 5.4.4 ONU统计信息 5.5 端口管理 5.5.1 端口信息 5.5.2 端口统计信息 5.5.3 端口配置 5.5.4 端口VLAN 5.5.5 环路检测 5.5.6端口隔离 5.6 MAC地址管理 5.7 协议管理 5.7.1 RSTP 5.7.2 IGMP 5.7.3DHCP 5.7.4MSTP 5.8 ACL/QOS 5.8.1 时间范围 5.8.2 ACL管理 5.8.3 包过滤（Packet Filter） 5.8.4 QOS 5.9 路由 5.9.1 路由管理 5.9.2 ARP表 5.10 链路聚合 1. 创建链路聚合 2. 查看链路聚合 3. 负载均衡选路算法 4. 删除链路聚合 6.快捷访问 7.root