Chirp Networks for Industrial Internet and Real time M2M

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US PATENT 9,819,747 B2. Chirp Networks (continuation). Please see https://www.linkedin.com/in/francisdacosta/ for full list.

Internet

The only systems on earth that have ever scaled to the size & scope of the Internet of things are natural systems: pollen distribution, ant colonies, redwoods, and so on. This proposal outlines how Massive IoT may be achieved by rethinking last mile connectivity. Today’s last mile is crippled by proprietary transport protocols, not sustainable. EdgeCloud thinking focused on smarts at the radio end to manage collision avoidance by segmenting collision domains in RF space (channel diversity) and time (time reservation slots). Current IoT Radios have to be “smart” because they use phones and computers as carrier pigeons to connect. These devices, intended for humans are rechargeable and thus not energy constrained. They can afford power hungry communication protocols. In order to communicate, the IoT edge devices must then also confirm to protocols and RF channels supported – or provide private networks. Conversely, in Cloud->Edge thinking, we let Clouds manage ant-like reprogrammable intelligence – purpose driven, minimal processing and thus low power usage and cheap. A 433 MHz wireless modem costs $0.10. A WiFi and Bluetooth wireless chipset costs $20. Also CSMA/CA protocols are inherently inefficient and insecure without “heavy” encryption on top of a heavy protocol. An IP header is 40 bytes vs. 1-2 bytes for Chirp headers. Chirp protocols and their minimal hardware cleanly cut through all Gordian knots in Fig. above. The Edge can be small dumb cheap and copious. Think sensor grids for forest fires, air and ocean pollution..Key Points addressed in this presentation relate to “CloudEdge” thinking. A. Global-Scale “Edge” challenges are: simplicity, cost, energy & (as always) security. B. Chirpers don’t need heavy OSI stack -> minimal power and cost for connectivity. C. Software Driven Mesh for the Edge -> Moves Chirping Edge Intelligence to Cloud. D. Trusted walled gardens become globally relevant through our imprinted chipsets. E. Massive IoT – burgeons with Cloud messaging and AI  Globally Relevant Solutions.Please see Chirp_Primer - intended as a prelude for these slides - for more. Thank you for your consideration. Your feedback is welcomed. Francis daCosta Jan 2024.

small-dumb-cheap-and-copious-the-future-of-the-internet-of-things

MeshDynamics

Small, Dumb, ¬¬Cheap, and Copious – the Future of the Internet of Things, Abstract Over the next decade, billions of interconnected devices will be monitoring and responding to transportation systems, factories, farms, forests, utilities, soil and weather conditions, oceans, and other resources. The unique characteristic that the majority of these otherwise incredibly diverse Internet of Things (IOT) devices will share is that they will be too small, too dumb, too cheap, and too copious to use traditional networking protocols such as IPv6. For the same reasons, this tidal wave of IOT devices cannot be controlled by existing operational techniques and tools. Instead, lessons from Nature’s massive scale will guide a new architecture for the IOT. Taking cues from Nature, and in collaboration with our OEM licensees, MeshDynamics is extending concepts outlined in the book “Rethinking the Internet of Things” to real-world problems of supporting “smart: secure and scalable” IOT Machine-to-Machine (M2M) communities at the edge. Simple devices, speaking simply Today companies view the IOT as an extension of current networking protocols and practices. But those on the front lines of the Industrial Internet of Things are seeing problems already: “While much of the ink spilled today is about evolutionary improvements using modern IT technologies to address traditional operational technology concerns, the real business impact will be to expand our horizon of addressable concerns. Traditional operational technology has focused on process correctness and safety; traditional IT has focused on time to market and, as a recent concern, security. Both disciplines have developed in a world of relative scarcity, with perhaps hundreds of devices interconnected to perform specific tasks. The future, however, points toward billions of devices and tasks that change by the millisecond under autonomous control, and are so distributed they cannot be tracked by any individual. Our existing processes for ensuring safety, security and management break down when faced with such scale. Stimulating the redevelopment of our technologies for this new world is a focal point for the Industrial Internet Consortium.”

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MeshDynamics

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Over the past decade, Meshdynamics has supplied customized versions of our mesh networking software to OEMs that include multiple military contractors, industrial mining solution providers and industrial network equipment manufacturers. The core mesh software was ported to run on boards (processors) and radios of the customer's choosing. Meshdynamics system integrators, working directly with the OEM licensee, developed the finished product. The intellectual property and trade secrets related to their new or upgraded products was thus preserved. Post 2014, Meshdynamics developed a generic, customizable suite of software modules to accelerate time to market for OEMS requiring mesh network connectivity to be baked into their connected devices. The tools include simulation and test automation tools specific to mesh networking and working source code for exemplary board-radio ensembles.

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Current automation design practice produces expensive one-of-a-kind installations where the system cannot be easily modified to meet changing demands or advancements in technology. It is imperative that we design robot systems to be modular, portable and easily re-configurable in order to reduce the design lead times and life cycle costs of providing automation alternatives. The Unified Tele-robotics Architecture Program (UTAP) was developed under the sponsorship of the US Air Force Robotics and Automation Center of Excellence. A goal of the program was to define and develop prototypes of commonly used software building blocks for sensor guided real time embedded control of telerobotic devices. Standard building blocks and a non-proprietary communication protocols would provide the Air Force and specifically the Logistic Centers with a support infrastructure designed to rapidly and efficiently build and maintain mission critical automation systems.

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MeshDynamics

We are implementing a rapid prototyping environment for robotic systems, based on tenets of modularity, reconfigurability and extendibility that may help build robot systems "faster, better and cheaper". Given a task specification, (e.g. repair brake assembly), the user browses through a library of building blocks that include both hardware and software components. Software advisors or critics recommend how blocks may be "snapped" together to speedily construct alternative ways to satisfy task requirements. Mechanisms to allow "swapping" competing modules for comparative test and evaluation studies are also included in the prototyping environment. After some iterations, a stable configuration or "wiring diagram" emerges. This customized version of the general prototyping environment still contains all the hooks needed to incorporate future improvements in component technologies and to obviate unplanned obsolescence...

Taking cues from Nature, MeshDynamics is extending concepts outlined in the book “Rethinking the Internet of Things” to address challenges in supporting robust, real time, secure, scalable, subscribable messaging for our OEM licensees and their applications in Military and Industrial Internet (IIOT). Unclassified Section of Presentation. http://www.slideshare.net/DaCostaFrancis/the-abstracted-network-for-industrial-internet

The Abstracted Network for Industrial Internet

MeshDynamics

Widespread adoption of TCI/IP protocols over the last two decades appears on the surface to have created a lingua franca for computer networking. And with the emergence of IPv6 removing the addressing restrictions of earlier versions, it would appear that now every device in the world may easily be connected with a common protocol. But three emerging factors are requiring a fresh look at this worldview. The first is the coming wave of sensors, actuators, and devices making up the Internet of Things (IOT). Although not yet widely recognized, it is beginning to be understood that a majority of these devices will be too small, too cheap, too dumb, and too copious to run the hegemonic IPv6 protocol. Instead, much simpler protocols will predominate (see below), which must somehow be incorporated into the IP networks of Enterprises and the Internet. At the other end of the scale from these tiny devices are huge Enterprise networks, increasing movingly to the cloud for computing and communication resources. An important requirement of these Enterprises is the capacity to manage, control, and tune their networks using a variety of Software Defined Networking (SDN) technologies and protocols. These depend on computing resource at the edges of the network to manage the interactions. The third element is a conundrum presented by the first two: Enterprises will be struggling with the need to bring vast numbers of simple IOT devices into their networks. Though many of these devices will lack computing and protocol smarts, the requirement will still remain to manage everything via SDN. Along with this, many legacy Machine-to-Machine (M2M) networks (such as those on the factory floor) present the same challenges as the IOT: simple and/or proprietary protocols operating in operational silos today that Enterprises desire to manage and tune with SDN techniques.

MeshDynamics Disruption Tolerant Networks

MeshDynamics

MeshDynamics Internet of Things (IoT) initiatives are in partnership with the US Military agencies and our commercial OEM licensees. Our embedded software runs on OpenWRT and MAC80211. Network processors supported, include Intel, Cavium, MIPS. OEM Customer applications, running on the routers, support real time, secure, M2M Machine control. Kernel level applications provide real time translation and encapsulation of Native Machine protocols and their transmitters (e.g. LED remote). MeshDynamics routers thus support low power IoT "chirp" devices, see "Rethinking the Internet Of Things". [Slides] [Jolt Award] Author Francis daCosta, previously founded Advanced Cybernetics Group, providing robot control system software for mission critical applications, including both local and supervisory real time M2M control. At MITRE, he served as an advisor to the United States Air Force Robotics and Automation Center of Excellence (RACE). Francis also held senior technical positions at Northrop Grumman, Ingersoll-Rand, Xerox. He has a MS from Stanford University and BS from Indian Institute of Technology.

Scale-able Internet of Things (Presented June 12015)

MeshDynamics

Scalable, Mission Critical Mesh Networking for Internet of Things.that support resource constrained devices, operating with Native Machine protocols, rudimentary communications capabilities. These simpler devices communicate with trusted routers through custom interfaces (e.g. LED remote). Custom routers also run applications providing the processing needed for low cost devices connectivity. The framework supports dynamic, temporal and mobile mesh networking infrastructure for both IP and non IP based devices. Applications use local processing power for both analysis (e.g. deep packet inspection) and control (e.g Real time M2M control). OEM Licensees include the US Military.

Iot conference-oct-2014

MeshDynamics

The only systems on earth that have ever scaled to the size and scope of the Internet of Things are natural systems: pollen distribution, ant colonies, redwoods, and so on. From examining these natural systems, I developed the concept of the three-tiered IoT network architecture described in the book: simple end devices, networking specialist propagator nodes, and information-seeking integrator functions operating within an organically grown ecosystem

Open Source For Self Classification of Data Stream in the Internet Of Things.

MeshDynamics

It is well understood that the Internet of Things represents unprecedented challenges of scope, with trillions of appliances, sensors, and actuators expected to be connected over the coming years. What is not yet appreciated is that current peer-to-peer networking schemes will be unable to create the kind of publish / discover / subscribe architectures that will be needed. Instead, a new type of self-classified data stream is needed, which can only be enabled by open-source collaborations in defining and implementing the emerging architecture of the IoT. Mr. daCosta will explore the implications of open source for end devices and networking equipment, as well as describing how even proprietary IoT data flows can help build an open source implementation. Presented at IoTWorldEvent, June 16, 2014

MeshDynamics P3M Persistent and Dynamic Mesh Networks

MeshDynamics

MeshDynamics has enhanced its industry-leading MD4000 third generation WiFi wireless mesh nodes with new features offering better performance and reliability in mobile or mixed fixed/mobile environments. The new software, called Persistent 3rd-Generation Mesh (P3M) is intended for dynamic military, transportation, and public safety applications, as well as in critical applications such as mine safety. In recent tests, the company demonstrated persistent high-throughput and low-delay and low-jitter networking as mobile wireless mesh nodes connected automatically with other mobile and fixed wireless mesh nodes. As some elements of the network moved out of WiFi range from other nodes, they automatically formed into separate independent networks, allowing communication to continue. When brought back into range, these network elements seamlessly reconnected with the rest of the network. All of this occurred without any operator intervention or reconfiguration and the process takes place in a fraction of a second. MeshDynamics MD4000 nodes are already being used in tactical battlefield environments to transmit video, voice, and sensor data between moving armored vehicles. The new P3M features now allow for smaller groups that become separated from the main formation or column to maintain the same high performance among themselves while isolated, and then automatically rejoin the larger force when they again come into range. The P3M features have also been proven in demanding underground mining environments, where possible cave-ins and other disasters may lead to a section of the network becoming isolated from the main portion of the network. With P3M technology, miners in the isolated sections may still communicate with one another, providing persistent Voice-over-IP and location capabilities and potentially speeding rescue. Third-generation wireless mesh networking has always delivered higher performance in rooted environments than does traditional wireless mesh technology. This is primarily achieved through imposing a logical Structured MeshTM topology on the mesh network, with uplink and downlink paths minimizing turnaround and multiple radios optimizing performance. Typically, the "uplink" and "downlink" determinations have been made by the nodes themselves at network start-up, based on the location of the fixed fiber or copper connection to the Internet or enterprise backbone. But the new P3M technology allows the nodes to structure the network dynamically, even if there is no fixed connection anywhere in the network or if the fixed connection is lost. Patent-pending route-finding algorithms permit the nodes to establish the optimal topology rapidly and to reconfigure quickly as nodes move in relation to one another and any fixed points. This allows for persistent high-performance networking, regardless of the topology formed by the mobile nodes.

MeshDynamics Mesh Networks - Video Surveillance

MeshDynamics

MeshDynamics provides the network infrastructure to make a fully distributed IP surveillance system possible for cameras, video servers, storage clusters, custom applications and remote viewing to be located in any location. The Department of Homeland Security (DHS) and SPAWAR engineers selected MeshDynamics Wi-Fi mesh nodes to provide remote video surveillance for stationary and vehicle mounted cameras along the US national border. IP cameras are connected to the MeshDynamics MD4000 mesh nodes transmitting high resolution real time video over the mesh network to the base station video monitors. Live video feeds from the IP based cameras is also available via the MeshDynamics mesh network to patrol vehicles with wireless access. Mobile nodes mounted in security forces vehicles join the network dynamically and while in motion. Service radios in the vehicles provide connectivity for staff in vehicles and operating nearby. In similar applications, UK, Israeli and Canadian defense agencies have also selected MeshDynamics for wireless video surveillance applications in those countries

MeshDynamics MD4000 Mesh Network Products - Installation Guide

MeshDynamics

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MeshDynamics

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MeshDynamics

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MeshDynamics

MeshDynamics delivers one of the only third-generation wireless mesh networking solutions for high-performance outdoor data, voice, and video networking. Based on sophisticated dynamic channel-agile networking algorithms, MeshDynamics' MD4000 family of Structured Mesh™ wireless nodes deliver very low-latency and low-jitter performance, even over multi-hop topologies where many earlier generation wireless mesh networking products fail. MeshDynamics' products are in use worldwide in mining and industrial, homeland security/defense, transportation, and metro/municipal network applications. MeshDynamics, Inc. is privately held and headquartered in Santa Clara, CA. More information at: www.meshdynamics.com

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原版纸张【微信：741003700 】【(bedfordhire毕业证书)英国贝德福特大学毕业证成绩单】【微信：741003700 】学位证，留信认证（真实可查，永久存档）offer、雅思、外壳等材料/诚信可靠,可直接看成品样本，帮您解决无法毕业带来的各种难题！外壳，原版制作，诚信可靠，可直接看成品样本。行业标杆！精益求精，诚心合作，真诚制作！多年品质 ,按需精细制作，24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题，包您满意。本公司拥有海外各大学样板无数，能完美还原海外各大学 Bachelor Diploma degree, Master Degree Diploma 1:1完美还原海外各大学毕业材料上的工艺：水印，阴影底纹，钢印LOGO烫金烫银，LOGO烫金烫银复合重叠。文字图案浮雕、激光镭射、紫外荧光、温感、复印防伪等防伪工艺。材料咨询办理、认证咨询办理请加学历顾问Q/微741003700 留信网认证的作用: 1:该专业认证可证明留学生真实身份 2:同时对留学生所学专业登记给予评定 3:国家专业人才认证中心颁发入库证书 4:这个认证书并且可以归档倒地方 5:凡事获得留信网入网的信息将会逐步更新到个人身份内，将在公安局网内查询个人身份证信息后，同步读取人才网入库信息 6:个人职称评审加20分 7:个人信誉贷款加10分 8:在国家人才网主办的国家网络招聘大会中纳入资料，供国家高端企业选择人才

一比一原版(CSU毕业证)加利福尼亚州立大学毕业证成绩单专业办理

ufdana

CSU毕业证原版定制【微信：176555708】【加利福尼亚州立大学毕业证成绩单-学位证】【微信：176555708】（留信学历认证永久存档查询）采用学校原版纸张、特殊工艺完全按照原版一比一制作（包括：隐形水印，阴影底纹，钢印LOGO烫金烫银，LOGO烫金烫银复合重叠，文字图案浮雕，激光镭射，紫外荧光，温感，复印防伪）行业标杆！精益求精，诚心合作，真诚制作！多年品质 ,按需精细制作，24小时接单,全套进口原装设备，十五年致力于帮助留学生解决难题，业务范围有加拿大、英国、澳洲、韩国、美国、新加坡，新西兰等学历材料，包您满意。 ◆◆◆◆◆ — — — — — — — — 【留学教育】留学归国服务中心 — — — — — -◆◆◆◆◆ 【主营项目】一.毕业证【微信：176555708】成绩单、使馆认证、教育部认证、雅思托福成绩单、学生卡等！二.真实使馆公证(即留学回国人员证明,不成功不收费) 三.真实教育部学历学位认证（教育部存档！教育部留服网站永久可查）四.办理各国各大学文凭(一对一专业服务,可全程监控跟踪进度) 如果您处于以下几种情况： ◇在校期间，因各种原因未能顺利毕业……拿不到官方毕业证【微信：176555708】 ◇面对父母的压力，希望尽快拿到； ◇不清楚认证流程以及材料该如何准备； ◇回国时间很长，忘记办理； ◇回国马上就要找工作，办给用人单位看； ◇企事业单位必须要求办理的 ◇需要报考公务员、购买免税车、落转户口 ◇申请留学生创业基金留信网认证的作用: 1:该专业认证可证明留学生真实身份 2:同时对留学生所学专业登记给予评定 3:国家专业人才认证中心颁发入库证书 4:这个认证书并且可以归档倒地方 5:凡事获得留信网入网的信息将会逐步更新到个人身份内，将在公安局网内查询个人身份证信息后，同步读取人才网入库信息 6:个人职称评审加20分 7:个人信誉贷款加10分→ 【关于价格问题（保证一手价格）我们所定的价格是非常合理的，而且我们现在做得单子大多数都是代理和回头客户介绍的所以一般现在有新的单子我给客户的都是第一手的代理价格，因为我想坦诚对待大家不想跟大家在价格方面浪费时间对于老客户或者被老客户介绍过来的朋友，我们都会适当给一些优惠。 8:在国家人才网主办的国家网络招聘大会中纳入资料，供国家高端企业选择人才选择实体注册公司办理，更放心，更安全！我们的承诺：可来公司面谈，可签订合同，会陪同客户一起到教育部认证窗口递交认证材料，客户在教育部官方认证查询网站查询到认证通过结果后付款，不成功不收费！学历顾问：微信：176555708

1比1复刻(bath毕业证书)英国巴斯大学毕业证学位证原版一模一样

3ipehhoa

原版纸张【微信：741003700 】【(bath毕业证书)英国巴斯大学毕业证学位证】【微信：741003700 】学位证，留信认证（真实可查，永久存档）offer、雅思、外壳等材料/诚信可靠,可直接看成品样本，帮您解决无法毕业带来的各种难题！外壳，原版制作，诚信可靠，可直接看成品样本。行业标杆！精益求精，诚心合作，真诚制作！多年品质 ,按需精细制作，24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题，包您满意。本公司拥有海外各大学样板无数，能完美还原海外各大学 Bachelor Diploma degree, Master Degree Diploma 1:1完美还原海外各大学毕业材料上的工艺：水印，阴影底纹，钢印LOGO烫金烫银，LOGO烫金烫银复合重叠。文字图案浮雕、激光镭射、紫外荧光、温感、复印防伪等防伪工艺。材料咨询办理、认证咨询办理请加学历顾问Q/微741003700 留信网认证的作用: 1:该专业认证可证明留学生真实身份 2:同时对留学生所学专业登记给予评定 3:国家专业人才认证中心颁发入库证书 4:这个认证书并且可以归档倒地方 5:凡事获得留信网入网的信息将会逐步更新到个人身份内，将在公安局网内查询个人身份证信息后，同步读取人才网入库信息 6:个人职称评审加20分 7:个人信誉贷款加10分 8:在国家人才网主办的国家网络招聘大会中纳入资料，供国家高端企业选择人才

原版仿制(uob毕业证书)英国伯明翰大学毕业证本科学历证书原版一模一样

3ipehhoa

原版纸张【微信：741003700 】【(uob毕业证书)英国伯明翰大学毕业证】【微信：741003700 】学位证，留信认证（真实可查，永久存档）offer、雅思、外壳等材料/诚信可靠,可直接看成品样本，帮您解决无法毕业带来的各种难题！外壳，原版制作，诚信可靠，可直接看成品样本。行业标杆！精益求精，诚心合作，真诚制作！多年品质 ,按需精细制作，24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题，包您满意。本公司拥有海外各大学样板无数，能完美还原海外各大学 Bachelor Diploma degree, Master Degree Diploma 1:1完美还原海外各大学毕业材料上的工艺：水印，阴影底纹，钢印LOGO烫金烫银，LOGO烫金烫银复合重叠。文字图案浮雕、激光镭射、紫外荧光、温感、复印防伪等防伪工艺。材料咨询办理、认证咨询办理请加学历顾问Q/微741003700 留信网认证的作用: 1:该专业认证可证明留学生真实身份 2:同时对留学生所学专业登记给予评定 3:国家专业人才认证中心颁发入库证书 4:这个认证书并且可以归档倒地方 5:凡事获得留信网入网的信息将会逐步更新到个人身份内，将在公安局网内查询个人身份证信息后，同步读取人才网入库信息 6:个人职称评审加20分 7:个人信誉贷款加10分 8:在国家人才网主办的国家网络招聘大会中纳入资料，供国家高端企业选择人才

Bridging the Digital Gap Brad Spiegel Macon, GA Initiative.pptx

Brad Spiegel Macon GA

假文凭国外(Adelaide毕业证)澳大利亚国立大学毕业证成绩单办理

cuobya

购买澳大利亚国立大学毕业证>【微信176555708】办理澳大利亚国立大学毕业证成绩单【微信176555708】Adelaide毕业证成绩单Adelaide学历证书Adelaide文凭【Adelaide毕业套号文凭网认证澳大利亚国立大学毕业证成绩单】【哪里买澳大利亚国立大学毕业证文凭Adelaide成绩学校快递邮寄信封】【开版澳大利亚国立大学文凭】Adelaide留信认证本科硕士学历认证(诚招代理)微信：176555708办理国外高校毕业证成绩单文凭学位证,真实使馆公证（留学回国人员证明）真实留信网认证国外学历学位认证雅思代考国外学校代申请名校保录开请假条改GPA改成绩ID卡 1.高仿业务:【本科硕士】毕业证,成绩单（GPA修改）,学历认证（教育部认证）,大学Offer,,ID,留信认证,使馆认证,雅思,语言证书等高仿类证书； 2.认证服务: 学历认证（教育部认证）,大使馆认证（回国人员证明）,留信认证（可查有编号证书）,大学保录取,雅思保分成绩单。 3.技术服务：钢印水印烫金激光防伪凹凸版设计印刷激凸温感光标底纹镭射速度快。办理澳大利亚国立大学澳大利亚国立大学毕业证成绩单流程： 1客户提供办理信息：姓名生日专业学位毕业时间等（如信息不确定可以咨询顾问：我们有专业老师帮你查询）； 2开始安排制作毕业证成绩单电子图； 3毕业证成绩单电子版做好以后发送给您确认； 4毕业证成绩单电子版您确认信息无误之后安排制作成品； 5成品做好拍照或者视频给您确认； 6快递给客户（国内顺丰国外DHLUPS等快读邮寄） -办理真实使馆公证（即留学回国人员证明） -办理各国各大学文凭（世界名校一对一专业服务,可全程监控跟踪进度） -全套服务：毕业证成绩单真实使馆公证真实教育部认证。让您回国发展信心十足！（详情请加一下文凭顾问+微信:176555708）欢迎咨询！

APNIC Foundation, presented by Ellisha Heppner at the PNG DNS Forum 2024

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