This document provides an overview of wireless networks and mobile computing. It discusses two aspects of mobility: user mobility which allows users to communicate anywhere anytime with anyone, and device portability which allows devices to connect anywhere to networks. It also covers examples of wireless and mobile technologies, applications of mobile computing like in vehicles and emergencies, a history of wireless communications pioneers like Tesla, and taxonomy and layers of wireless networks.
Link labs 2G 3G CDMA transition webinar slidesBrian Ray
Join us as Link Labs VP of Business Development and Cellular IoT Product Director, Glenn Schatz, discusses what to expect from the end-of-life of several cellular technologies, how companies can avoid being caught without a transition plan, and how business and product leaders can leverage this potential disruption as an opportunity to build a new Internet of Things (IoT) strategy.
Link labs 2 g 3g cdma transition webinar slidesBrian Ray
Join us as Link Labs VP of Business Development and Cellular IoT Product Director, Glenn Schatz, discusses what to expect from the end-of-life of several cellular technologies, how companies can avoid being caught without a transition plan, and how business and product leaders can leverage this potential disruption as an opportunity to build a new Internet of Things (IoT) strategy.
Link labs 2 g 3g cdma transition webinar slidesBrian Ray
The document discusses the upcoming sunsets of 2G, 3G, and CDMA networks and what this means for IoT strategies. It provides an overview of the different cellular technologies including their data speeds and which major US carriers support them. Key timeline milestones for network shutdowns by various carriers between 2016-2021 are presented. The document then discusses factors to consider when choosing the right cellular technology for an IoT device, including power constraints, data needs, costs of components, certification, cellular services and managed services. It presents Link Labs as an option to help with the transition and provide related professional services.
This document discusses 4G wireless networks, which will provide transmission speeds from 100Mbps to 1Gbps. 4G networks will be fully IP-based and integrated, allowing for any service from anywhere. They will require new technologies like OFDMA and MIMO to achieve the high data rates and capacity goals. 4G will also require new network components like IPv6 and advanced antenna systems to support the large number of wireless devices and provide increased network capacity and range.
Low-Power Wide-Area (LPWA) technology is needed for Internet of Things (IoT) devices due to their low-bandwidth and long battery life requirements. Two leading LPWA cellular technologies are LTE-M and NB-IoT. LTE-M supports higher data rates and real-time communication, while NB-IoT is optimized for low data rates from stationary sensors. Major cellular networks have begun rolling out and expanding LPWA networks globally in 2017 and 2018 to support the growing demand of IoT devices.
5G Is Overhyped - Learn What It Can Really DoWalt Maclay
The promise of 5G
The technology
* Frequency bands
* Speed, distance, and latency of different bands
* 5G for cell phones
* 5G for low latency high reliability
* 5G for the Internet of Things (IoT)
What this means for the future
* Carrier choices will make a big difference
* Where you are will make a big difference
* What does 5G do for IoT?
This document provides an overview of wireless networks and mobile computing. It discusses two aspects of mobility: user mobility which allows users to communicate anywhere anytime with anyone, and device portability which allows devices to connect anywhere to networks. It also covers examples of wireless and mobile technologies, applications of mobile computing like in vehicles and emergencies, a history of wireless communications pioneers like Tesla, and taxonomy and layers of wireless networks.
Link labs 2G 3G CDMA transition webinar slidesBrian Ray
Join us as Link Labs VP of Business Development and Cellular IoT Product Director, Glenn Schatz, discusses what to expect from the end-of-life of several cellular technologies, how companies can avoid being caught without a transition plan, and how business and product leaders can leverage this potential disruption as an opportunity to build a new Internet of Things (IoT) strategy.
Link labs 2 g 3g cdma transition webinar slidesBrian Ray
Join us as Link Labs VP of Business Development and Cellular IoT Product Director, Glenn Schatz, discusses what to expect from the end-of-life of several cellular technologies, how companies can avoid being caught without a transition plan, and how business and product leaders can leverage this potential disruption as an opportunity to build a new Internet of Things (IoT) strategy.
Link labs 2 g 3g cdma transition webinar slidesBrian Ray
The document discusses the upcoming sunsets of 2G, 3G, and CDMA networks and what this means for IoT strategies. It provides an overview of the different cellular technologies including their data speeds and which major US carriers support them. Key timeline milestones for network shutdowns by various carriers between 2016-2021 are presented. The document then discusses factors to consider when choosing the right cellular technology for an IoT device, including power constraints, data needs, costs of components, certification, cellular services and managed services. It presents Link Labs as an option to help with the transition and provide related professional services.
This document discusses 4G wireless networks, which will provide transmission speeds from 100Mbps to 1Gbps. 4G networks will be fully IP-based and integrated, allowing for any service from anywhere. They will require new technologies like OFDMA and MIMO to achieve the high data rates and capacity goals. 4G will also require new network components like IPv6 and advanced antenna systems to support the large number of wireless devices and provide increased network capacity and range.
Low-Power Wide-Area (LPWA) technology is needed for Internet of Things (IoT) devices due to their low-bandwidth and long battery life requirements. Two leading LPWA cellular technologies are LTE-M and NB-IoT. LTE-M supports higher data rates and real-time communication, while NB-IoT is optimized for low data rates from stationary sensors. Major cellular networks have begun rolling out and expanding LPWA networks globally in 2017 and 2018 to support the growing demand of IoT devices.
5G Is Overhyped - Learn What It Can Really DoWalt Maclay
The promise of 5G
The technology
* Frequency bands
* Speed, distance, and latency of different bands
* 5G for cell phones
* 5G for low latency high reliability
* 5G for the Internet of Things (IoT)
What this means for the future
* Carrier choices will make a big difference
* Where you are will make a big difference
* What does 5G do for IoT?
LTE MTC: Optimizing LTE Advanced for Machine Type CommunicationsQualcomm Research
LTE MTC optimizes LTE Advanced for machine-type communications by significantly increasing battery life, reducing device complexity, and enhancing coverage. As part of 3GPP Release 13, LTE MTC allows for narrowband operation, extended sleep cycles, and new power saving modes. It plays a key role in connecting the billions of devices that make up the Internet of Everything by co-existing with mobile broadband networks.
A webinar discussing the costs associated with building an internet of things solution with various LPWAN technologies: LTE-M, NB-IOT, Ingenu, Sigfox, and more. Bluetooth Low Energy (BLE) solutions are also considered.
Materi seminar 5 g ieee comsoc lecture 5g evolution v2indonesiabelajar
This document discusses 5G evolution and the need for 5G networks. It summarizes the evolution from 1G to 4G mobile networks and some key 4G technologies. It then outlines candidate technologies for 5G such as advanced networking, multi-tier networks, and multi-radio scenarios that could satisfy the growing bandwidth demand, support the Internet of Things, and help operators address the challenge of lower revenue per bit. The document concludes by discussing 5G requirements such as high network capacity and uniform connectivity experience.
The document discusses Qualcomm Technologies' role in connecting the Internet of Things through cellular technologies like LTE Cat-M1 and NB-IoT. It outlines how these new narrowband LTE technologies optimize cellular to address a wide range of IoT use cases in a low-cost and low-power way while leveraging existing LTE infrastructure. The technologies are designed to deliver benefits like multi-year battery life, ubiquitous coverage including deeper indoor coverage, and support for massive numbers of devices connecting in a heterogeneous connectivity landscape.
Link Labs introduced the AirFinder SuperTag, a low-power indoor/outdoor asset tracking device. The SuperTag uses Bluetooth indoors and cellular networks outdoors to provide seamless tracking. It also monitors temperature, shock and vibration. The SuperTag was presented as solving challenges with existing GPS, indoor tracking and data logging solutions. Three use cases were described: manufacturing tracking between indoor and outdoor areas, shipment tracking compared to LTE-M GPS trackers, and replacing data loggers for monitoring refrigerated goods. The SuperTag offers automated data collection, geofencing alerts and reporting at a low monthly cost per device.
M2M One - Developing & Managing Wireless M2M Services in Australia - CeBIT Au...James Mack
Presentation slides from M2M One's presentation 'Developing & Managing Wireless M2M Services in Australia' from CeBIT Australia 2016 at Sydney Olympic Park - May 2016
Presented by James Mack - General Manager of M2M One
NB IoT is a low power wide area network technology that allows connectivity of devices using a small part of the LTE spectrum bandwidth. It enables connectivity for a large number of devices using less battery power and provides better building penetration compared to previous technologies. NB IoT reuses existing LTE infrastructure and can support wide area connectivity for devices with low throughput but long battery life up to 10 years. It is well suited for applications like smart metering, asset tracking and wireless sensor networks.
Asset Tracking and Location Technologies for Internet of ThingsBrian Ray
Positioning in the Internet of Things. How location technology works and the use cases that are driving adoption.
- Use Cases: Asset Tracking, Real Time Location Systems, Asset Management
- How GPS Works
- Time based location
- Proximity location technologies
- Using WiFi for Position
- Tradeoffs in performance, power, and cost
- Keys to building a successful location product
Presentation by the Comarch Technologies division. Bluetooth Low-Energy devices and LORA are taking over the Telecommunications industry. How can the IoT environment best be integrated for Telecom operators?
In these slides, you will be able to learn about what we will need to do in order to enable 5G and how open source can help accelerate that transformation.
Link labs LTE-M NB-IOT Hype Webinar slidesBrian Ray
Join us as Link Labs VP of Business Development and Cellular IoT Product Director, Glenn Schatz, discusses common misconceptions about LTE Cat-M1 and Cat-NB1 (NB-IoT), as well as how business and product leaders can use these transformative technologies to deliver value to their customers, while avoiding some of the pitfalls companies face when embarking on this journey.
In this Webinar we will cover:
What are the key features and benefits of LTE Cat-M1 and NB-IoT?
What is the state of devices and network availability today?
How do the various low-power modes work (PSM, eDRX, and vendor-specific), and how can they be used in my application?
What are some of the risks and challenges of developing a product with one of these technologies?
How much do these devices cost? What do the data plans look like?
What is in store for the future with 2G and 3G sunsets (both CDMA and GSM) and the emergence of 5G?
- The document provides an overview of IoT connectivity and LPWA networks, comparing technologies like SigFox, LoRaWAN, and cellular networks.
- Low-power wide area networks (LPWANs) like SigFox and LoRaWAN are designed for low-cost, battery-operated devices and can provide longer range than cellular at much lower data rates. However, they have limitations on bi-directional communication compared to cellular.
- While both SigFox and LoRaWAN networks are being deployed globally, key differences exist in the modulation techniques, hardware costs, and ecosystem partners for each technology.
Pervasive Internet and the Push Towards ConvergenceBrenda Bell
ACGNJ Main Meeting presentation on the evolution of mobile data and Internet availability, with a view towards what 5G will mean for both stationary and mobile data access
This document provides an overview of low-power wide-area networks (LPWAN) for internet of things (IoT) applications. It introduces different LPWAN technologies including LoRa, Sigfox, and NB-IoT and compares their characteristics such as data rates, power consumption, range, and security features. The document also discusses LPWAN standards from various standards bodies and the benefits of using LPWAN networks, concluding that each technology is suited for different IoT use cases depending on cost, battery life, range, and communication needs.
This document summarizes Qualcomm's vision and technologies for providing connectivity for the Internet of Everything. It discusses how Qualcomm is expanding 4G LTE, Wi-Fi, and Bluetooth to connect billions of devices through technologies like carrier aggregation, advanced antenna techniques, and interoperability frameworks. The goal is a unified connectivity platform that intelligently connects everything while empowering new services with ultra-low latency and device-to-device capabilities.
The document provides an overview of an IT and telecommunications company that offers infrastructure services and solutions. It describes the company's certifications, partners, offices, markets served, and solutions related to connectivity, security, wireless networks, video surveillance, and more. Key details include that the company has over 50 employees, serves various industries and sectors, and provides campus connectivity, data center, wireless, and surveillance solutions.
This document provides an overview of Voice over Internet Protocol (VoIP) technology. It discusses key components of VoIP including signaling protocols, audio codecs, echo elimination, advantages, applications, and considerations for deployment. The document contains slides that cover topics such as the public switched telephone network versus VoIP networks, signaling systems, audio codecs, quality of service factors, security threats, integrating VoIP with existing phone systems, and virtualized PBX solutions.
Presentation Slide deck from the Ag gateway 2016 Emerging Technology forum. Covers LPWan, LoRa and IoT for agriculture. I enjoyed presenting on this topic and the lively discussions that followed. I expect to see interesting developments in IoT for Agriculture and LPWan will be a big part.
I am interested in speaking at technology events and would be able to give this or similar talk.
Курсовая работа по дисциплине "Технология разработки программного обеспечения" (Екатеринбург, УрФУ, 2013). Автор Сабиров Е.Р. Руководитель доцент, к.т.н. Лавров В.В. http://vlavrov.professorjournal.ru
LTE MTC: Optimizing LTE Advanced for Machine Type CommunicationsQualcomm Research
LTE MTC optimizes LTE Advanced for machine-type communications by significantly increasing battery life, reducing device complexity, and enhancing coverage. As part of 3GPP Release 13, LTE MTC allows for narrowband operation, extended sleep cycles, and new power saving modes. It plays a key role in connecting the billions of devices that make up the Internet of Everything by co-existing with mobile broadband networks.
A webinar discussing the costs associated with building an internet of things solution with various LPWAN technologies: LTE-M, NB-IOT, Ingenu, Sigfox, and more. Bluetooth Low Energy (BLE) solutions are also considered.
Materi seminar 5 g ieee comsoc lecture 5g evolution v2indonesiabelajar
This document discusses 5G evolution and the need for 5G networks. It summarizes the evolution from 1G to 4G mobile networks and some key 4G technologies. It then outlines candidate technologies for 5G such as advanced networking, multi-tier networks, and multi-radio scenarios that could satisfy the growing bandwidth demand, support the Internet of Things, and help operators address the challenge of lower revenue per bit. The document concludes by discussing 5G requirements such as high network capacity and uniform connectivity experience.
The document discusses Qualcomm Technologies' role in connecting the Internet of Things through cellular technologies like LTE Cat-M1 and NB-IoT. It outlines how these new narrowband LTE technologies optimize cellular to address a wide range of IoT use cases in a low-cost and low-power way while leveraging existing LTE infrastructure. The technologies are designed to deliver benefits like multi-year battery life, ubiquitous coverage including deeper indoor coverage, and support for massive numbers of devices connecting in a heterogeneous connectivity landscape.
Link Labs introduced the AirFinder SuperTag, a low-power indoor/outdoor asset tracking device. The SuperTag uses Bluetooth indoors and cellular networks outdoors to provide seamless tracking. It also monitors temperature, shock and vibration. The SuperTag was presented as solving challenges with existing GPS, indoor tracking and data logging solutions. Three use cases were described: manufacturing tracking between indoor and outdoor areas, shipment tracking compared to LTE-M GPS trackers, and replacing data loggers for monitoring refrigerated goods. The SuperTag offers automated data collection, geofencing alerts and reporting at a low monthly cost per device.
M2M One - Developing & Managing Wireless M2M Services in Australia - CeBIT Au...James Mack
Presentation slides from M2M One's presentation 'Developing & Managing Wireless M2M Services in Australia' from CeBIT Australia 2016 at Sydney Olympic Park - May 2016
Presented by James Mack - General Manager of M2M One
NB IoT is a low power wide area network technology that allows connectivity of devices using a small part of the LTE spectrum bandwidth. It enables connectivity for a large number of devices using less battery power and provides better building penetration compared to previous technologies. NB IoT reuses existing LTE infrastructure and can support wide area connectivity for devices with low throughput but long battery life up to 10 years. It is well suited for applications like smart metering, asset tracking and wireless sensor networks.
Asset Tracking and Location Technologies for Internet of ThingsBrian Ray
Positioning in the Internet of Things. How location technology works and the use cases that are driving adoption.
- Use Cases: Asset Tracking, Real Time Location Systems, Asset Management
- How GPS Works
- Time based location
- Proximity location technologies
- Using WiFi for Position
- Tradeoffs in performance, power, and cost
- Keys to building a successful location product
Presentation by the Comarch Technologies division. Bluetooth Low-Energy devices and LORA are taking over the Telecommunications industry. How can the IoT environment best be integrated for Telecom operators?
In these slides, you will be able to learn about what we will need to do in order to enable 5G and how open source can help accelerate that transformation.
Link labs LTE-M NB-IOT Hype Webinar slidesBrian Ray
Join us as Link Labs VP of Business Development and Cellular IoT Product Director, Glenn Schatz, discusses common misconceptions about LTE Cat-M1 and Cat-NB1 (NB-IoT), as well as how business and product leaders can use these transformative technologies to deliver value to their customers, while avoiding some of the pitfalls companies face when embarking on this journey.
In this Webinar we will cover:
What are the key features and benefits of LTE Cat-M1 and NB-IoT?
What is the state of devices and network availability today?
How do the various low-power modes work (PSM, eDRX, and vendor-specific), and how can they be used in my application?
What are some of the risks and challenges of developing a product with one of these technologies?
How much do these devices cost? What do the data plans look like?
What is in store for the future with 2G and 3G sunsets (both CDMA and GSM) and the emergence of 5G?
- The document provides an overview of IoT connectivity and LPWA networks, comparing technologies like SigFox, LoRaWAN, and cellular networks.
- Low-power wide area networks (LPWANs) like SigFox and LoRaWAN are designed for low-cost, battery-operated devices and can provide longer range than cellular at much lower data rates. However, they have limitations on bi-directional communication compared to cellular.
- While both SigFox and LoRaWAN networks are being deployed globally, key differences exist in the modulation techniques, hardware costs, and ecosystem partners for each technology.
Pervasive Internet and the Push Towards ConvergenceBrenda Bell
ACGNJ Main Meeting presentation on the evolution of mobile data and Internet availability, with a view towards what 5G will mean for both stationary and mobile data access
This document provides an overview of low-power wide-area networks (LPWAN) for internet of things (IoT) applications. It introduces different LPWAN technologies including LoRa, Sigfox, and NB-IoT and compares their characteristics such as data rates, power consumption, range, and security features. The document also discusses LPWAN standards from various standards bodies and the benefits of using LPWAN networks, concluding that each technology is suited for different IoT use cases depending on cost, battery life, range, and communication needs.
This document summarizes Qualcomm's vision and technologies for providing connectivity for the Internet of Everything. It discusses how Qualcomm is expanding 4G LTE, Wi-Fi, and Bluetooth to connect billions of devices through technologies like carrier aggregation, advanced antenna techniques, and interoperability frameworks. The goal is a unified connectivity platform that intelligently connects everything while empowering new services with ultra-low latency and device-to-device capabilities.
The document provides an overview of an IT and telecommunications company that offers infrastructure services and solutions. It describes the company's certifications, partners, offices, markets served, and solutions related to connectivity, security, wireless networks, video surveillance, and more. Key details include that the company has over 50 employees, serves various industries and sectors, and provides campus connectivity, data center, wireless, and surveillance solutions.
This document provides an overview of Voice over Internet Protocol (VoIP) technology. It discusses key components of VoIP including signaling protocols, audio codecs, echo elimination, advantages, applications, and considerations for deployment. The document contains slides that cover topics such as the public switched telephone network versus VoIP networks, signaling systems, audio codecs, quality of service factors, security threats, integrating VoIP with existing phone systems, and virtualized PBX solutions.
Presentation Slide deck from the Ag gateway 2016 Emerging Technology forum. Covers LPWan, LoRa and IoT for agriculture. I enjoyed presenting on this topic and the lively discussions that followed. I expect to see interesting developments in IoT for Agriculture and LPWan will be a big part.
I am interested in speaking at technology events and would be able to give this or similar talk.
Курсовая работа по дисциплине "Технология разработки программного обеспечения" (Екатеринбург, УрФУ, 2013). Автор Сабиров Е.Р. Руководитель доцент, к.т.н. Лавров В.В. http://vlavrov.professorjournal.ru
This document provides contact information for two locations of a Goan cuisine restaurant called The Taste of India in Guernsey, including addresses, phone numbers, and website. It notes that Goan dishes have unique flavors and encourages customers to experience the cuisine for themselves. The document also states that the restaurant is fully licensed and recommends reservations, and lists its opening times.
Aggregation in Air Permitting - When Two Sources Become OneAll4 Inc.
Mark Wenclawiak of All4 Inc. presents "Aggregation in Air Permitting - When Two Sources Become One." This presentation describes the potential issues with source aggregation, the definition of a "stationary source," and considerations for future projects.
The document summarizes the capabilities and features of the SpiderCloud Wireless Services Node, which is an enterprise small cell platform that supports both 3G and LTE radio access. The Services Node can control up to 100 small cell radio nodes across an area of over 1 million square feet, with a single platform that simplifies configuration, mobility management, and backhaul integration. It provides carrier-grade security, quality of service controls, and capabilities for self-optimizing networks and applications.
5. Firetide Next Generation Wireless Infrastructure for City Surveillance.pdfPawachMetharattanara
Firetide is a market leader in wireless mesh infrastructure technology. It has over 20,000 installations worldwide for applications requiring real-time video surveillance. Firetide's wireless mesh networking equipment has the best performance in the market due to its core routing protocol. It is currently replacing underperforming wireless networks for over 30% of its business in video and voice applications. Firetide leads the market in wireless video surveillance with over 1,000 municipal installations in the US and is also widely used internationally.
China rail high speed wireless internet serviceJen-chih Liu
SoMAX provides wireless internet on China's high-speed rail system (CRH) using an intelligent mesh network technology. It extends China's influence by demonstrating its technological capabilities while also being more cost-effective than traditional cellular networks. SoMAX creates a self-forming mesh between access points on trains and along tracks to provide continuous high-speed connectivity even at speeds up to 400 km/hr. The system has applications for train operations, environmental monitoring, and surveillance that require reliable connectivity.
Evolución de las redes inalámbricas para tráfico multimedia. Juan Carlos Cabr...Elastix México
The document discusses the evolution of wireless networks for multimedia traffic. It describes Ruckus Wireless' solutions for reliable wireless communications, including unified communications, voice, video and data services on mobile devices. Ruckus uses adaptive antenna technology, meshing, adaptive Wi-Fi signaling and QoS to provide consistent performance at any range. The document also covers best practices for deploying wireless LANs to support voice and video applications.
Transformation From Today To Tomorrow - Market and Product Strategy 2018Jiunn-Jer Sun
This document outlines a strategy for transforming industrial communication networks from today to the future. It analyzes current solutions and identifies trends impacting networks, including cloud connectivity, network security, and cloud networking. The transformation roadmap involves three phases over the next 5 years: 1) focusing on cloud/security, 2) convergence and scalability, and 3) network virtualization and agility. The goal is for networks to become more flexible, modular, and integrated through both physical and virtual components using technologies like TSN, 5G, wireless, and NFV.
Presentation held at Fachkongress des IT-Planungsrats, Stuttgart 2014 by Mojca Volk and Janez Sterle (University of Ljubljana) and Gerold Gruber, Citkomm, Deutschland
This document discusses several topics related to advanced wireless technologies, including Voice over IP networks (VoIP), vehicular networks, and delay tolerant networks. It provides overviews and definitions of each topic, describing key aspects like VoIP architecture and protocols, vehicular communication methods between vehicles and infrastructure, and the store-carry-forward approach used in delay tolerant networks to allow communication in intermittent connectivity scenarios. Application examples are also given for each such as using VoIP for voice calls over the internet, safety and traffic applications in vehicular networks, and file sharing or telemedicine over delay tolerant networks.
The document discusses how a mobile network operator implemented a unified network strategy using Self-Organizing Network (SON) technology to improve network performance across legacy, current, and future technologies. Key steps included expanding UMTS coverage to move more subscribers to UMTS, refarming GSM spectrum for UMTS and LTE, and boosting LTE capacity. This enabled the network envelope to be expanded, providing better voice services on the optimized GSM network and higher data throughput on UMTS and LTE. The results were lower costs, improved operational efficiency, enhanced subscriber experience through higher speeds and reduced dropped calls, and decreased network-related subscriber churn.
The document discusses ACKSYS's rugged WiFi solutions for communication on buses, trams, and at depots. It describes how ACKSYS's products allow vehicles to automatically load and offload operating data through a wireless network at depots. It also discusses providing real-time communication on vehicles in motion through ACKSYS's WiFi devices that offer fast roaming and high data rates to ensure seamless connectivity. ACKSYS offers a complete solution of devices tailored for both onboard and ground use to enable dynamic data transfers and smart deployment of wireless networks for public transportation.
MASERGY delivers intelligent transport services including private IP, VPLS, public IP, and VPWS over VLANs using MPLS. They provide Ethernet connectivity globally at port speeds from 1.5 MB to gigabit. Customers can combine public and private networks on a single circuit to save money without compromising security or flexibility. MASERGY offers global MPLS with up to six classes of service, extended network reach, layer 2 security, and integration of private and public networks. Customers have flexibility to choose service options and quality of service levels to meet their needs.
Azalea provides wireless mesh networking solutions using its innovative Adaptive Wireless Routing (AWR) technology. AWR allows for high capacity, scalable wireless networks optimized for broadcast quality video and seamless mobility. Azalea's multi-radio routers can support a variety of applications including wireless broadband, video surveillance, and mobile WiFi access across city-wide areas.
PLNOG16: When and Why use Fortinet Infrastructure Wireless solution, Brian An...PROIDEA
Fortinet provides secure wireless infrastructure solutions that are flexible and scalable for mobile environments. Their wireless offerings include access points and management capabilities. Fortinet wireless infrastructure allows for channel planning flexibility, low latency roaming, and separation of wireless access and security purchases. Key features include virtual cell technology, zero-handoff roaming, airtime fairness, and options for single channel, channel layering or striping to optimize performance.
The document discusses Tropos Networks and their technology for building metro-scale WiFi networks. It describes how Tropos combines the ease and speed of WiFi with the ubiquity and reliability of cellular networks using self-organizing WiFi cells that form a mesh network and allow seamless roaming across wide areas. Examples are given of Tropos networks deployed for public safety, municipalities, and commercial uses.
This document provides information about PTCL's corporate services. It describes PTCL as the largest telecom service provider in Pakistan with an extensive infrastructure across the country. It then lists several of PTCL's networking and connectivity products and services available for corporate customers, including IP Connect, BVPN, BDSL, DXX, 3G Connect, DPLC, IPLC, VSAT, audio/video conferencing, and managed WAN services. It also describes PTCL's data center services, cloud services, and an all-in-one "Business in a Box" solution.
This document discusses enterprise campus networks and presents alternatives to traditional campus network designs. It outlines challenges with complex campus networks including availability, performance, security, and managing bandwidth utilization and prioritized traffic. It proposes a simplified, hierarchical network architecture and discusses supporting techniques like LACP, VLANs, STP, firewalls, and VPNs to improve security, availability, and traffic management. The conclusion advocates for alternative personalized approaches to campus networks that can efficiently meet requirements while maintaining security, performance, and compliance with administrative policies.
Pennine Telecom is an established UK-based telecommunications company with over 30 years of experience. They specialize in digital radio systems including Motorola's MOTOTRBOTM Connect Plus system, which allows for digital trunking across 70 sites with 29 channels per site. Key features of the MOTOTRBOTM Connect Plus system include dynamic site assignment, priority call levels, and location services for GPS.
The right Wireless Architecture for youCisco Canada
This document discusses different wireless network architectures from Cisco, including autonomous access points, centralized architecture, and FlexConnect architecture. Autonomous access points are managed individually while centralized architecture uses wireless LAN controllers for centralized management. FlexConnect is an extension of centralized that allows some local switching and control at remote branch sites for better WAN efficiency and high availability when the connection to the main controller fails. The document provides details on how each architecture works, available access point and controller options, benefits and limitations of each.
ICC's Access Control System is a unified wired/wireless system to allow SMB and small enterprise leverage software to control IP data networking centrally or distributed throughout their networks.
Similar to Firetide Wireless Mesh Nodes for Transportation (20)
hese system designs are from PTZOptics. They include detailed schematics for live streaming and video communications. Each system diagram is organized into sections: Business, Education, House of Worship, Healthcare, Government, and Broadcast. Additionally, they include good, better and best diagrams for system design.
PTZOptics Audio Visual Schematics and Live Streaming System DesignsPaul Richards
The document outlines audio visual system designs for different sectors including business, education, house of worship, healthcare, government, and broadcast. It lists video streaming, production, lecture capture, communications solutions that are good, better, or best for each sector. It encourages contacting the company via email for more information on audio visual solutions tailored to specific needs.
Video filters can be applied to any Source or Scene by right clicking on the title and selecting Filters. New Filters can be added to OBS when specific plugins are installed. Similar to Sources, Filters can have their visibility toggled on and off in the Filters management window. By default, OBS organizes Filters into Audio/Video Filters and Effect Filters. You can add a filter by selecting the “+” plus button, which will open the Filter and allow you to adjust the Filter settings. There is a plugin called OBS Filter Hotkeys that will allow you to toggle the visibility on and off for Filters using Hotkeys without having to open the Filters management window.
Once you have become comfortable with OBS, you may want to start customizing the OBS software. OBS allows users to customize many settings including the overall theme and positioning of each major user interface element. You will notice the ability to resize areas of OBS with your mouse by hovering over the edge of a particular area. For example, if you hover your mouse under the main video area you will notice you can click and drag the side to resize the element. You can also click and drag the top bar of an element to drag the entire element into a new space to reorganize the OBS interface. You can also click and drag entire interface elements outside of the main OBS application in order to create a dedicated space in a new window. Some core OBS elements such as Scenes and the Audio Mixer offer alternate layout options. For example, the image below shows the default audio mixer moved to the side and put into a vertical mode.
This document discusses optimizing settings in Open Broadcaster Software (OBS) to improve performance. It covers monitoring computer resources, adjusting output mode and video settings, optimizing streaming bitrate settings for different resolutions and frame rates, configuring networking and process priority settings, and using OBS statistics to monitor usage. The key takeaway is that optimizing these types of settings is important as productions increase in complexity to ensure OBS runs efficiently without dropped frames.
1. OBS is an open source software for video production that allows users to create scenes, add sources like screen captures and webcams, transition between scenes, record or stream video, and customize the interface.
2. New versions of OBS are released yearly, with recent updates including features like NVENC encoding, dynamic bitrates, virtual cameras, undo/redo, and improved audio filters.
3. The document provides an overview of OBS and summaries of new features introduced in recent major versions.
How to host BIG company meetings with live streamingPaul Richards
This document provides guidance on how to effectively host large online meetings and live streams for companies. It discusses how the coronavirus pandemic has led to a massive increase in remote work and online collaboration. It then offers best practices for organizing content, creating engaging video, measuring results, and using tools like Zoom, Microsoft SharePoint, and video production software to maximize participation and impact. Tactics include breaking content into clear sections, balancing data visualization with real examples, adding entertainment, tracking metrics, and enhancing collaboration.
Why you should record your zoom meetings with obsPaul Richards
In this presentation, you will learn how to dramatically increase the quality of your Zoom meeting recordings. In our last blog post and video, you can learn about the various video recording options available in Zoom. Our tests show that cloud recordings are generally less than 1 Mbps and local recordings are less than 2 Mbps. A bitrate can be used to rank the quality of a video recording in most scenarios and Zoom’s recording bitrate is quite low. Usually, a low bit-rate for video recordings can result in pixelation and general low quality.
Using video production software like OBS, Wirecast, or vMix you can gain the ability to choose a higher quality bit-rate for your recordings. Video production software like OBS also allows you to enhance the quality of your videos with audio enhancements and video production features such as transitions and scene organizations. Here is a small list of the benefits of using OBS for video recordings versus Zoom.
Are you tired of seeing your 1080p webcam image show up in SD in Zoom? That’s because by default, Zoom is actually SD right now, but there is a way to enable HD, and most people don’t know about it!
In this blog post, you will learn how to enable HD mode in Zoom and get 720p and even 1080p video in your Zoom Meetings. All of this and more, will be coming up next!
So great news. There is a feature inside of Zoom called “Enabled Group HD Video.” You may have noticed that inside of most Zoom meetings your video and the video of others looks well, small and sometimes pixelated. This is usually because Zoom is doing it’s absolute best to make everyone's connection seamless for online communications in real time. Therefore, depending on the bandwidth of your internet connection, Zoom may reduce video quality in order to optimize your overall experience.
How to set up Countdown Timers in Microsoft TeamsPaul Richards
Microsoft Teams is a great video communication tool that can be enhanced with all kinds of video elements by using OBS. OBS, stands for Open Broadcaster Software, and it is a video production software that supports a virtual webcam output. By using OBS with it’s virtual webcam output feature in Teams, you can overlay graphics and countdown timers in Teams. This is a great way to show meeting countdown timers, lower thirds graphics and much more.
You can control multiple PTZ cameras with vMix using the Pro or 4K versions of the software. In order to take control over PTZ cameras inside of vMix you will need to know your PTZ camera's IP address and be on the same local area network as the cameras. If you do not know your camera's IP address, you will need to follow the instructions in the cameras set up video. Once you know your camera's IP address, you can simply enter it into vMix to gain PTZ camera control.
Select PTZOptics as the camera type, enter the IP address and click connect. You can use the Pan, Tilt and Zoom controls to start moving your camera around the room. As you are controlling the camera, notice the speed options available for manual pan/tilt and preset pan/tilt. These are the controls you can use to tell vMix the speed at which you want the camera to move in a manual setting and during presets.
Control multiple ptz cameras at once with obsPaul Richards
Using OBS you can control PTZOptics cameras in a couple of different ways. The most popular way is to install the free PTZOptics OBS plugin which adds some great robotic camera control features to OBS. Once installed, you can open up the plugin and control up to 8 cameras. The plugin even create specific hotkeys for calling PTZ presets and it adds the ability to control cameras with an XBox joystick. There is another way to control PTZOptics cameras with OBS called a “Dockable” interface using HTML codes available from PTZOptics. The HTML files can be used with the “Docks” feature of OBS to dock a PTZ camera controller directly into the OBS interface. You can learn more about that here.
Are you just starting out on Twitch, YouTube or Facebook? Or maybe you’re thinking of starting a brand new channel? If that’s the case you might be trying to work out how to make your channel stand out from the crowd, after all the growth in the number of Twitch channels has been exponential in 2020.
So if you’re looking to differentiate your channel, how can you go about it? There are three main ways:
Give your unique take on existing topics or create content not found anywhere else
Deliver an incredible amount of value in your content (more than anyone else)
Create a unique and memorable brand for your channel
In this article, we’re going to cover the third part of the equation - how to brand your channel and live streams to give yourself the best chance of building a unique and successful presence on Twitch.
It’s time for an updated video and tutorial on connecting OBS and Zoom. OBS has recently been updated to support a new virtual camera output feature. This feature makes it even easier to connect OBS with Zoom. This tutorial also includes a new method for working with virtual audio cables to connect OBS and Zoom. The video side is easy, and the audio side is a little more difficult. Let’s dig in.
The picture above is a complete connection diagram showing you how to connect audio and video between OBS and Zoom. Essentially, you are able to bring audio and video directly from Zoom and OBS with any Windows or Mac PC. The main difference between Windows and Mac computers is the type of Audio setup that you use.
Live streaming on Amazon is a huge opportunity for Amazon Sellers, Brands, and influencers. Amazon's live streaming program is designed to monetize live streaming via eCommerce sales on their platform. This is an exciting way for video production companies, AV integration companies, and in-house video teams to upgrade their clients live streaming capabilities in order to create professional video that sells. Let's take a look at the live streaming tiers available from Amazon and how you can start live streaming on Amazon.
Amazon owns the eCommerce market in the United States and abroad in many countries. Ecommerce sales have exploded in 2020, and live streaming on Amazon is a perfect opportunity for sellers, brands and influencers to get ahead of their competition. Live streaming is a value add sellers where sellers can provide Amazon customers real-time information at a critical moment as they make buying decisions. This is where you want to be if your business sells on Amazon.
Video communication tools for educators Paul Richards
Being able to communicate effectively with your students using video communication tools is essential for modern education. Video communications can strengthen the connection between teachers, students, and parents to foster supportive learning environments.. When you use software such as Zoom, Big Blue Button, or Google Meet, you are leveraging video communication tools to extend the boundaries of your teaching. Simple class discussions can happen via online meetings which can transform into interactive activities and learning sessions leveraging two-way communication tools.
Priming involves using certain words to influence people's mindsets and how they approach tasks. Meeting hosts can prime participants to be engaged by including words like "impressive" in the meeting agenda. Research shows priming words like "patient" can influence people to walk more slowly. The meeting agenda is a tool to prime attendees' mindsets. Collaboration meetings are generally easiest to host as the goal is sharing ideas to achieve a common goal. Engaging large audiences sometimes requires more careful moderation than small groups. Meeting moderators can foster positive engagement and deter negative attention.
All businesses are in a constant state of change. In The Grid, author Matt Watkinson, explains why the traditional way of studying business as a static system is ineffective. Traditionally Watkinson says that businesses like to “break things down into small pieces, and then study them in isolation.” While your organization may see strong results from hosting many small meetings with dedicated teams, it’s often difficult for these small groups to see the bigger picture. In reality, all businesses are interconnected systems where one decision affects other areas of the system. Managers need to remain tapped into the collaboration efforts of their team members to look for overarching cause-and-effect scenarios that can result from small team decisions. This is why large “all hands” update meetings are also important for connecting departments under a common vision.
The document discusses ways to make meetings more engaging and transformational for attendees. It suggests incorporating elements of edutainment like quizzes, personal stories and gamification. Meetings should start with passive participation and evolve into active participation. If the setting is comfortable, personal experiences shared can significantly impact others. Productive meetings use personalized context to create positive reaction opportunities. Transformations are highly personal experiences that can be shared. Meetings should have a distinct beginning, middle and end to facilitate transformation.
How to Interpret Trends in the Kalyan Rajdhani Mix Chart.pdfChart Kalyan
A Mix Chart displays historical data of numbers in a graphical or tabular form. The Kalyan Rajdhani Mix Chart specifically shows the results of a sequence of numbers over different periods.
Freshworks Rethinks NoSQL for Rapid Scaling & Cost-EfficiencyScyllaDB
Freshworks creates AI-boosted business software that helps employees work more efficiently and effectively. Managing data across multiple RDBMS and NoSQL databases was already a challenge at their current scale. To prepare for 10X growth, they knew it was time to rethink their database strategy. Learn how they architected a solution that would simplify scaling while keeping costs under control.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Digital Banking in the Cloud: How Citizens Bank Unlocked Their MainframePrecisely
Inconsistent user experience and siloed data, high costs, and changing customer expectations – Citizens Bank was experiencing these challenges while it was attempting to deliver a superior digital banking experience for its clients. Its core banking applications run on the mainframe and Citizens was using legacy utilities to get the critical mainframe data to feed customer-facing channels, like call centers, web, and mobile. Ultimately, this led to higher operating costs (MIPS), delayed response times, and longer time to market.
Ever-changing customer expectations demand more modern digital experiences, and the bank needed to find a solution that could provide real-time data to its customer channels with low latency and operating costs. Join this session to learn how Citizens is leveraging Precisely to replicate mainframe data to its customer channels and deliver on their “modern digital bank” experiences.
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
In the realm of cybersecurity, offensive security practices act as a critical shield. By simulating real-world attacks in a controlled environment, these techniques expose vulnerabilities before malicious actors can exploit them. This proactive approach allows manufacturers to identify and fix weaknesses, significantly enhancing system security.
This presentation delves into the development of a system designed to mimic Galileo's Open Service signal using software-defined radio (SDR) technology. We'll begin with a foundational overview of both Global Navigation Satellite Systems (GNSS) and the intricacies of digital signal processing.
The presentation culminates in a live demonstration. We'll showcase the manipulation of Galileo's Open Service pilot signal, simulating an attack on various software and hardware systems. This practical demonstration serves to highlight the potential consequences of unaddressed vulnerabilities, emphasizing the importance of offensive security practices in safeguarding critical infrastructure.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
How information systems are built or acquired puts information, which is what they should be about, in a secondary place. Our language adapted accordingly, and we no longer talk about information systems but applications. Applications evolved in a way to break data into diverse fragments, tightly coupled with applications and expensive to integrate. The result is technical debt, which is re-paid by taking even bigger "loans", resulting in an ever-increasing technical debt. Software engineering and procurement practices work in sync with market forces to maintain this trend. This talk demonstrates how natural this situation is. The question is: can something be done to reverse the trend?
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/how-axelera-ai-uses-digital-compute-in-memory-to-deliver-fast-and-energy-efficient-computer-vision-a-presentation-from-axelera-ai/
Bram Verhoef, Head of Machine Learning at Axelera AI, presents the “How Axelera AI Uses Digital Compute-in-memory to Deliver Fast and Energy-efficient Computer Vision” tutorial at the May 2024 Embedded Vision Summit.
As artificial intelligence inference transitions from cloud environments to edge locations, computer vision applications achieve heightened responsiveness, reliability and privacy. This migration, however, introduces the challenge of operating within the stringent confines of resource constraints typical at the edge, including small form factors, low energy budgets and diminished memory and computational capacities. Axelera AI addresses these challenges through an innovative approach of performing digital computations within memory itself. This technique facilitates the realization of high-performance, energy-efficient and cost-effective computer vision capabilities at the thin and thick edge, extending the frontier of what is achievable with current technologies.
In this presentation, Verhoef unveils his company’s pioneering chip technology and demonstrates its capacity to deliver exceptional frames-per-second performance across a range of standard computer vision networks typical of applications in security, surveillance and the industrial sector. This shows that advanced computer vision can be accessible and efficient, even at the very edge of our technological ecosystem.
2. Who We Are
Leader in wireless mesh
infrastructure for public safety
video surveillance*
Headquarter in
Silicon Valley USA
10,000 installations in
40+ countries
Technology forerunner
through continued innovation
R&D in India
105 employees worldwide
Established global channel
*IMS Research – A leading independent provider of market research
2
Confidential
3. Transportation: The Networking Challenge
Move data on
and off vehicles in
real-time
3
Enable new
services, such as
digital signage,
location data and
operations analytics
Operational safety,
crime and accident
prevention
Confidential
Need real-time
problem
detection;
prevention the
ultimate goal
Enable „Green
Wave‟ for Rapid
Transit systems
4. Mobility Technical Challenges
Roaming Time
Capacity
Stable
Throughput
4
Switching less than 1ms
More than 100Mbps
Non-spiking throughput
Confidential
Linear Mobility
Switching
AutoMesh™
5. The Firetide Response
• Fiber-like reliability and performance on a
wireless network
• Built from ground up for video/voice/data
• Supports all wireless topologies:
PTP/PTMP + Mesh
• Connectivity in fixed and mobile deployments
• High scalability
5
Confidential
6. 100 Mbps network connectivity @100 mph
• Proven solution enabling realtime applications - video
surveillance at high speeds
120
100
80
60
40
20
0
-20
6
• Zero packet loss - seamless
handover of voice and video
UDP
Throughput
(Mbps)
Packet Loss
Confidential
• Patented 3rd gen mobility
solution
7. Fleet Offload - Gigabits of data in under a minute
Dual radio and AutoMesh makes „Fast & Secure‟ hand-over mobility without
„Packet loss‟
• Radio switching algorithm
with AutoMesh – less than
5ms hand-over
• No jitter, no latency
• No packet loss
7
Confidential
8. Mobile Command Centers
•
Instant deployment and mobility enables first
responders to set up temporary communications
•
Mesh nodes are plenum-rated for mounting in
trunks, under seats or elsewhere in
vehicles/command centers
•
Built-in 4-port 10/100 Ethernet switch can
support mobile data terminals, digital video
cameras, GPS receivers and most other onboard multimedia communications systems
8
Confidential
9. Tollway Connectivity
Tolling industry is going cashless
• Wireless connectivity where cable is
too costly and disruptive
• Automated toll collection
• Electronic messaging
• Less congestion and lower wait times
• Less manpower needed
9
Confidential
10. Intelligent Transportation Systems
Real-time HD Video and Traffic Analysis for Congested Cities
•
Improved traffic flow and reduced vehicle
emissions
•
Real-time information on traffic
conditions and coordinated operations at
local traffic centers
•
Reduced occurrence of stop-and-go
traffic; increased mobility and reduced
vehicle emissions
10
Confidential
11. Firetide Mobility Solution Differentiation
Fiber-like reliability and performance on a wireless network
Redundancy
• True redundant mesh topology, every node has a connection with every other node
in the network. Inherent self-healing and load balancing capabilities ensure failsafe
operations.
Linear Scalability
• “mobile” nodes attach to available static nodes on a single radio which is optimized
to transfer data while moving at high speeds.
Lowest Latency
• Scalable networks with no degradation in throughput and performance. Supports up
to 15 hops at < 1ms per hop.
Performance
Security
11
• Flow-based routing helps to balance traffic across the mesh, optimize aggregate
throughput, and increase network performance.
•
256-bit key size AES encryption coupled with end-to-end packet transmission.
Confidential
14. AutoMesh: A Unique Approach
Seamless
Roaming
for
Mobility
Familiar
Distributed
Ethernet
Paradigm
AutoMesh
TM
End to End
Encryption
for Secure
Connections
Flexibility
with Wireless
and Fiber
Redundancy
14
Multi-Hop
Optimization
for maximum
performance
Confidential
15. No Hassle IT Integration
Distributed Ethernet switch
•
•
•
•
15
Confidential
One IP management
One virtual switch
Seamless VLAN, policy
integration
Central management for
entire network
16. Zero Downtime – Carrier Grade Reliability
Firetide
7020
Mesh
Wireless
Firetide
7020
• Fiber grade reliability
Traffic Rerouted
0 downtime
• Enables mission critical
applications over wireless
• Seamless fail over
• Redundancy for fiber
Control
Room A
16
Optical
Fiber
FIBER
BREAK
Control
Room B
Confidential
17. End-to-End Secure Transmission
•
Encrypted
Decrypted
Decrypted
Secure backhaul for
critical and sensitive
applications
•
No degradation in latency
enables secure
video/voice backhaul
•
No security pitfalls with per
hop decryption and
encryption
Vulnerable
Encrypted
17
Encrypted
Confidential
18. End to end Latency in ms
UDP Throughput in
Mbps
Scaling Your Network with 5x Less Fiber
Throughput vs. Hops
200
Firetide's Multi
Hop Optimizer
100
PTMP Products
0
1
2
3
4
10
15
Number of wireless hops
WiFi AP based
Mesh
Latency vs. Hops
200
150
100
FMRP Routing
50
Competitive routing
0
1
2
3
4
5
• Patented MPLS-type FMRP* lowoverhead routing protocol
• Designed for video from ground-up
• Less need for fiber lowers total cost of
ownership and enables rapid
deployment
• Only solution in the market with no
performance degradation with 15
wireless hops
6
Number of wireless hops
*Firetide Mesh Routing Protocol
18
Confidential
19. HotPort 7000 Wireless Mesh Nodes
Flexible configuration
Built-in deployment tools
HotView Pro NMS
•
•
•
•
•
•
•
•
•
Tri-mode radios: 2.4/4.9/5 GHz
Dual-radio & MIMO capable
Indoor and outdoor
High-power radio: 400 mW
Multi-levels of security with AES encryption
Interference mitigation tools
Spectrum analyzer
Network capacity planning tools
Required
Throughput, reliability and
security of wire
• Performance of up to 300 Mbps outdoors/indoors
Fiber-equivalent - less
than 1 ms latency per hop
• Greater reliability: interference mitigation intelligence
• Easier deployment: integrated spectrum analysis
Convenient upgrade path
• From non-MIMO to MIMO; from single radio to dual-radio – via
software licenses
19
Confidential
20. HotPort 7000-900 for Non-LOS Operation
•
Dual-radio nodes for non line-of-sight
applications
•
•
•
Capabilities
•
•
•
•
•
•
•
•
20
Smart grid
Utility WAN networks
HotPort 7100-900
170-180 Mbps UDP on radio 1 (abgn)
20-22 Mbps on Radio 2 (900 MHz).
Dual-radio configuration
Radio 1: 2.4, 4.9, 5 GHz; radio 2: 900 MHz
Indoor & outdoor
High power radio: 400 mW
High security with 256 bit AES encryption
HotView Pro required
Confidential
HotPort 7200-900
21. Firetide HotPoint 5000 Access Points
•
Indoor/Outdoor
•
Dual 802.11n MIMO radios
•
2.4, 5 and 4.9 GHz operation
•
Central management through HotView Pro
•
Mesh integration
•
Power over Ethernet-PoE
•
Up to 16 Virtual APs
21
Confidential
22. Mobility Controller – FMC 2000
• Convert existing static network into
mobility enabled networks
• Maintains mobile node access control
lists (Authorized Nodes)
• Synchronizes information between
gateway servers
• Supports up to 64 Meshes, 2048
Static Nodes and 1024 Mobile Nodes
• Single Point for Mobility Configuration
• Single Point for Monitoring
• Network Wide Views
• Simplified Configuration
22
Confidential
Applications
• Two-way high bandwidth
communications on moving
vehicles at 100 mph
• Mobile Command Centers for
Public Safety First Responders
23. Benefits
Single point for
configuring and
managing mobility
network
Maintains mobile
node Access
Control Lists
(Authorized Nodes)
Authenticates
mobile nodes when
they join the
network
Maintains mobile
node
configurations
Provides unified
mobile node FW
upgrade
Synchronizes
information
between Gateway
Server
Convert existing
static network into
mobility enabled
networks
23
Confidential
24. HotView Pro™- Network Management Solution
•
•
•
•
•
24
Configure and manage any combination
of Firetide products
System-wide network
management, analysis, security, statistics,
and tools
Multiple interfaces
- GUI, HTTP, SNMP
Manage multiple meshes & controllers
HVP license required per node or AP
Confidential
26. Seoul Metro - World‟s Longest Subway
Firetide Solution
• Mesh network coverage across 201 subway
trains and 148 stations
• 1500 mesh nodes
Applications
• Real-time video, broadcast information on
moving trains and in subway
Customer Value
• Increased passenger safety
• Enables train operator to view situatoin at
station before arrival
• More accurate, real-time information available
to passengers
26
Confidential
27. MBTA – Massachusetts Bay Transit Authority
Firetide Solution
• Mesh nodes on busses, trains, in emergency
vehicles, in parking lots and at stations
Applications
• video offload and live viewing
Customer Value
• Real-time video can be sent to nearby police
cars along with stored video to prevent or
mitigate a crime.
• Increase passenger safety
28. City of Scottsdale – Traffic Management Center
Firetide Solution
• 90 Firetide HotPort 7020 wireless mesh nodes
and 86 pan-tilt-zoom digital video cameras at
the busiest intersections
•
Applications
• Scottsdale TMC can continuously monitor
traffic activity from a central command center
Customer Value
• Reduces traffic congestion
• Actively manage traffic affected by special
events, weather, and emergency situations.
29. Challenge the Mesh!
450
miles of linear all wireless mesh
400
cameras all wireless backhaul in 2 sq km
200
buses in a depot all wireless offload
0
29
packet drop at 100 Mbps @100 mph
Confidential
30. The Firetide Advantage
Resiliency for your mission-critical
infrastructure
Seamless connectivity for all your
assets, static or mobile
Bandwidth for your most
demanding applications
We‟ve done it thousands of times
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Confidential
Green waveEnable ‘Green Wave’ for Rapid Transit systems through automatic and manual traffic controls A green wave is an intentionally induced phenomenon in which a series of traffic lights (usually three or more) are coordinated to allow continuous traffic flow over several intersections in one main direction.Any vehicle travelling along with the green wave (at an approximate speed decided upon by the traffic engineers) will see a progressive cascade of green lights, and not have to stop at intersections. This allows higher traffic loads, and reduces noise and energy use (because less acceleration and braking is needed). In practical use, only a group of cars (known as a "platoon", the size of which is defined by the signal times) can use the green wave before the time band is interrupted to give way to other traffic flows.The coordination of the signals is sometimes done dynamically, according to sensor data of currently existing traffic flows - otherwise it is done statically, by the use of timers. Under certain circumstances, green waves can be interwoven with each other, but this increases their complexity and reduces usability, so in conventional set-ups only the roads and directions with the heaviest loads get this preferential treatment.Green waves are sometimes used to facilitate bicycle traffic. Copenhagen,[6] Amsterdam,[7] San Francisco,[8] and other cities, may synchronize traffic signals to provide a green light for a flow of cyclists. In Copenhagen, a green wave on the arterial street Nørrebrogade facilitates 30,000 cyclists to maintain a 12 mph (19.3 km/h) speed for 2.5 kilometers. In Amsterdam, cyclists riding at a speed of 15 to 18 km/h will be able to travel without being stopped by a red signal. Tests show that public transport can benefit as well and cars may travel slightly slower.Frederiksberg, a part of Copenhagen, the capital of Denmark, has implemented a green wave for emergency vehicles to improve the public services.
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