Cognitive Radio Networks for Emergency Communications June 2012xG Technology, Inc.
1) xG Technology is a leading developer of cognitive radio network technology, including their xMax product, which enables more efficient use of wireless spectrum. 2) xMax is an all IP mobile broadband solution that provides real-time voice, video, broadband data, and SMS using cognitive radio capabilities to dynamically change channels and avoid interference. 3) xMax provides benefits for first responders and military applications by allowing fully mobile tactical deployments with seamless integration to satellite backhaul, and its cognitive abilities make it difficult to jam.
xG Technology Presentation March 2014 Cognitive Radio Networks for Public Sa...xG Technology, Inc.
xG Technology develops cognitive radio technology called xMax that allows wireless devices to identify and utilize available spectrum to ensure optimal communications. xMax can operate in licensed, unlicensed, or shared bands, mitigate interference, and is difficult to jam. It provides an alternative to cellular networks for public safety, allowing immediate deployment of communications during disasters when cellular networks may be damaged or overloaded. xMax has been tested in urban, rural, and military environments.
The document summarizes xG Technology's xMax mobile voice and data solution that utilizes cognitive radio technology to operate in unlicensed spectrum bands. It provides an overview of the key components of the xMax network, including the xMod, xAP, xMSC, and management tools. The xMax system uses an IP architecture and dynamic spectrum access to provide reliable communications and interference mitigation in congested unlicensed bands. It offers advantages over licensed spectrum such as lower costs and greater flexibility. The document compares xMax to Wi-Fi and discusses applications for the xMax technology.
X-Max is a cognitive radio network developed by xG Technology to deliver mobile services using licensed or unlicensed spectrum. It uses xMod devices, xAP base stations, and an xMSC controller to form a cellular network architecture. X-Max radios can dynamically adjust transmission parameters to identify and avoid interference using techniques like dynamic spectrum access and 2x4 MIMO antenna configurations, allowing them to operate reliably even in interference-heavy environments. The technology has applications for rural connectivity, military use, and location-based services while providing cost-effective broadband access without licensed spectrum fees.
The document discusses X-max Technology, a cognitive radio network developed by xG Technology to deliver mobile services using licensed or unlicensed spectrum. It uses advanced cognitive sensing to detect available channels and mitigate interference through dynamic spectrum access and 2x4 MIMO antenna configurations. The network architecture includes xMod devices, xAP base stations, an xMSC controller, and xMonitor/xDrive management tools. X-max can provide wireless broadband connectivity across wide areas at low power in a cost-effective way without licensed spectrum costs.
Cognitive Radio Networks for Emergency Communications June 2012xG Technology, Inc.
1) xG Technology is a leading developer of cognitive radio network technology, including their xMax product, which enables more efficient use of wireless spectrum. 2) xMax is an all IP mobile broadband solution that provides real-time voice, video, broadband data, and SMS using cognitive radio capabilities to dynamically change channels and avoid interference. 3) xMax provides benefits for first responders and military applications by allowing fully mobile tactical deployments with seamless integration to satellite backhaul, and its cognitive abilities make it difficult to jam.
xG Technology Presentation March 2014 Cognitive Radio Networks for Public Sa...xG Technology, Inc.
xG Technology develops cognitive radio technology called xMax that allows wireless devices to identify and utilize available spectrum to ensure optimal communications. xMax can operate in licensed, unlicensed, or shared bands, mitigate interference, and is difficult to jam. It provides an alternative to cellular networks for public safety, allowing immediate deployment of communications during disasters when cellular networks may be damaged or overloaded. xMax has been tested in urban, rural, and military environments.
The document summarizes xG Technology's xMax mobile voice and data solution that utilizes cognitive radio technology to operate in unlicensed spectrum bands. It provides an overview of the key components of the xMax network, including the xMod, xAP, xMSC, and management tools. The xMax system uses an IP architecture and dynamic spectrum access to provide reliable communications and interference mitigation in congested unlicensed bands. It offers advantages over licensed spectrum such as lower costs and greater flexibility. The document compares xMax to Wi-Fi and discusses applications for the xMax technology.
X-Max is a cognitive radio network developed by xG Technology to deliver mobile services using licensed or unlicensed spectrum. It uses xMod devices, xAP base stations, and an xMSC controller to form a cellular network architecture. X-Max radios can dynamically adjust transmission parameters to identify and avoid interference using techniques like dynamic spectrum access and 2x4 MIMO antenna configurations, allowing them to operate reliably even in interference-heavy environments. The technology has applications for rural connectivity, military use, and location-based services while providing cost-effective broadband access without licensed spectrum fees.
The document discusses X-max Technology, a cognitive radio network developed by xG Technology to deliver mobile services using licensed or unlicensed spectrum. It uses advanced cognitive sensing to detect available channels and mitigate interference through dynamic spectrum access and 2x4 MIMO antenna configurations. The network architecture includes xMod devices, xAP base stations, an xMSC controller, and xMonitor/xDrive management tools. X-max can provide wireless broadband connectivity across wide areas at low power in a cost-effective way without licensed spectrum costs.
The document discusses the xMax wireless broadband technology. It provides an overview of the key components of the xMax network architecture, including xMod fixed/mobile hotspots, xAP access points, and the xMSC access network gateway. The xMax technology uses a proprietary protocol and is designed to prioritize voice calls by providing dedicated bandwidth and minimizing latency, allowing it to provide reliable voice services in shared spectrum.
An overview of cognitive radio, comparison of cognitive radio vs. conventional radio, real-world applications for cognitive radio networks, how cognitive radios improve spectrum efficiency and address the wireless spectrum shortage.
Cognitive Radio (CR) is an adaptive, intelligent radio and network technology that can automatically detect available channels in a wireless spectrum and change transmission parameters enabling more communications to run concurrently and also improve radio operating behavior.
Keith Nolan - Use Of Cognitive Radio To Improve Spectrum Usage Efficiency And...Keith Nolan
Keith Nolan - spectrum, regulatory, technical and market issues surrounding the use of cognitive radio to improve spectrum usage efficiency and data capacity, IEEE VTS UKRI meeting, July 2012, Dublin, Ireland
1) The document expresses gratitude to the author's guide and friends for their support and guidance in completing a thesis.
2) It provides an overview of the xMax technology, which can be used for wired or wireless communication and improve range and battery life. It uses a hybrid of narrowband and wideband modulation.
3) It discusses xMax's network architecture, which provides voice and data services through base stations, an access gateway, and backhaul links at a lower cost than traditional networks through techniques like SIP compression.
IoT Needs Good Neighbours - Cognitive Radio Turns Enemies into FriendsAMIHO Technology
With the internet of things the use of connected devices is predicted to be in many tens of billions. In this presentation, Steve Clarke discusses the use of various wireless technologies and techniques such as cognitive radio to allow these devices to co-exist in harmony with their (many) neighbours.
Steve Clarke, Technical Director of AMIHO, presented this paper at the prestigious Embedded World conference,Feb 2016.
CR technology is based on the fact that the licensed systems (also named primary systems PS) are not always using their spectrum bands; CR brings new radio types—cognitive radios—that should firstly, identify the existing spectrum holes, and secondly, utilize them according to an access
The E3 project aims to design cognitive radio systems and gradually evolve wireless networks for increased efficiency. The project involves network operators, equipment manufacturers, regulators and academia. It focuses on using cognitive radio concepts like dynamic spectrum allocation and selection to flexibly use spectrum between operators. This allows systems like LTE-Advanced to potentially use opportunistic spectrum access. The project also examines reconfigurable base stations and terminals, cognition enablers like a cognitive pilot channel, and self-optimization of radio networks.
Cognitive radio networks allow for secondary users to access unused licensed frequencies, known as spectrum holes. The document discusses the history and introduction of cognitive radio, characteristics including cognitive capability, reconfigurable capability, and self-organized capability. It then covers cognitive radio networks architecture including infrastructure-based, ad-hoc, and mesh architectures. It also discusses security issues, attacks on cognitive networks, applications, cognition techniques, and future research directions such as seamless spectrum handovers and proactive spectrum selection and interference avoidance.
Oliver Holland - IEEE VTS UKRI - Energy efficiency challenges of data volume...Keith Nolan
Oliver Holland from King's College London talks about energy efficiency challenges of data volume increases and the use of sleep modes facilitated by opportunistic cognitive radio networking as a solution
Military, Defense and Public Safety Mesh Networks [MeshDynamics]MeshDynamics
The document discusses network-centric warfare and the need for wireless communications technologies to support it. It focuses on four key requirements: mobility, high performance support of real-time protocols, distributed frequency agility, and distributed topologies and network formation. It describes MeshDynamics' wireless mesh technology, which meets these requirements through multi-radio architecture and distributed radio intelligence that allows networks to dynamically configure channels and topology for high performance even in mobile environments.
This document discusses using cognitive radio networks to enable smart grid applications. It begins by introducing smart grids and their need to overcome challenges in aging infrastructure and growing energy demands. It then discusses cognitive radio networks, which can opportunistically access licensed spectrum without interfering with licensed users. The document outlines the key components of cognitive radio networks and smart grids, and proposes using cognitive radio networks to enable smart grid applications at the home area network, neighborhood area network, and wide area network levels. Specifically, it suggests cognitive radio technologies could manage spectrum sharing among smart meters and grid components to improve efficiency and flexibility of smart grid operations.
The Abstracted Network for Industrial Internet- SlidesMeshDynamics
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
This document discusses cognitive radio in 5G networks. It begins with describing the evolution of mobile standards from 1G to 4G. It then introduces the concepts of 5G and cognitive radio. The key points are:
- 5G will provide very high data rates up to 1 Gbps and connect many more devices.
- Cognitive radio can improve spectrum efficiency by allowing unlicensed users to access licensed spectrum holes.
- The document proposes a cognitive radio based 5G network that can integrate various wireless technologies and help manage network complexity using cognitive radio's abilities.
The document discusses cognitive radio networks and dynamic spectrum allocation. It proposes a cognitive sensor network testbed approach using cross-layer analysis. The key functions of cognitive radio devices are sensing to detect spectrum availability, decision making on transmission parameters, spectrum sharing through coordination, and mobility to switch frequencies. The proposal involves a cross-layer protocol stack with interfaces for sensing, decision making, and coordinating media access across layers. Challenges in implementing this approach on wireless sensor networks include time response, bandwidth limits, and energy consumption.
Dynamic frequency allocation in femtocells-based systems: algorithms and perf...Remo Pomposini
This document summarizes the PhD candidate Remo Pomposini's research on dynamic frequency allocation algorithms for femtocell-based systems. It discusses the problem of interference between densely deployed femtocells and proposes using cognitive radio techniques and dynamic frequency selection algorithms to intelligently allocate frequencies. It analyzes the performance of greedy and operator-oriented algorithms through simulations in various network topologies and deployment scenarios. The results show that the greedy algorithm comes closest to optimal frequency assignment and significantly increases the number of active femtocells compared to random assignment.
Cognitive Radio: When might it Become Economically and Technically Feasible? Jeffrey Funk
My Master's students use ideas from my (Jeff Funk) forthcoming book (Technology Change and the Rise of New Industries) to analyze the economic and technical feasibility of cognitive radio. See my other slides for details on concepts, methodology, and other new industries.
Crsm 2 2009 Bill Lehr Mit Policy And Business Issues Of Heterogeneous Wi...imec.archive
The document discusses the heterogeneous wireless future and the implications of increased spectrum sharing. It argues that no single wireless platform will dominate due to the scarcity of radio frequency spectrum. Spectrum must be shared more extensively across services, networks, and infrastructure using software defined radio and cognitive radio technologies. These technologies are essential enablers of dynamic spectrum access and more flexible spectrum management approaches. The future involves greater end-user control over wireless networks and specialized networks operating alongside more integrated platforms.
Cognitive radio is a form of software-defined radio that can be used to address the spectrum crunch by detecting unused spectrum ("spectrum holes") and transmitting on those frequencies without interfering with the licensed users. It works by constantly sensing its operating environment and adapting its transmission parameters, such as frequency band or power level. This allows cognitive radios to opportunistically use vacant spectrum while avoiding occupied bands. Some challenges to the technology include developing specialized hardware, synchronization between devices, and preventing security vulnerabilities or false interference readings.
X-Max is a cognitive radio network developed by xG Technology to deliver mobile services using licensed or unlicensed spectrum. It uses small base stations called xAPs connected to an xMSC through xMod devices. X-Max can intelligently detect available channels and avoid interference using technologies like dynamic spectrum access and 2x4 MIMO antenna configurations. This allows it to provide cost-effective mobile broadband connectivity over large areas using both licensed and unlicensed spectrum bands.
The document discusses the xMax wireless broadband technology. It provides an overview of the key components of the xMax network architecture, including xMod fixed/mobile hotspots, xAP access points, and the xMSC access network gateway. The xMax technology uses a proprietary protocol and is designed to prioritize voice calls by providing dedicated bandwidth and minimizing latency, allowing it to provide reliable voice services in shared spectrum.
An overview of cognitive radio, comparison of cognitive radio vs. conventional radio, real-world applications for cognitive radio networks, how cognitive radios improve spectrum efficiency and address the wireless spectrum shortage.
Cognitive Radio (CR) is an adaptive, intelligent radio and network technology that can automatically detect available channels in a wireless spectrum and change transmission parameters enabling more communications to run concurrently and also improve radio operating behavior.
Keith Nolan - Use Of Cognitive Radio To Improve Spectrum Usage Efficiency And...Keith Nolan
Keith Nolan - spectrum, regulatory, technical and market issues surrounding the use of cognitive radio to improve spectrum usage efficiency and data capacity, IEEE VTS UKRI meeting, July 2012, Dublin, Ireland
1) The document expresses gratitude to the author's guide and friends for their support and guidance in completing a thesis.
2) It provides an overview of the xMax technology, which can be used for wired or wireless communication and improve range and battery life. It uses a hybrid of narrowband and wideband modulation.
3) It discusses xMax's network architecture, which provides voice and data services through base stations, an access gateway, and backhaul links at a lower cost than traditional networks through techniques like SIP compression.
IoT Needs Good Neighbours - Cognitive Radio Turns Enemies into FriendsAMIHO Technology
With the internet of things the use of connected devices is predicted to be in many tens of billions. In this presentation, Steve Clarke discusses the use of various wireless technologies and techniques such as cognitive radio to allow these devices to co-exist in harmony with their (many) neighbours.
Steve Clarke, Technical Director of AMIHO, presented this paper at the prestigious Embedded World conference,Feb 2016.
CR technology is based on the fact that the licensed systems (also named primary systems PS) are not always using their spectrum bands; CR brings new radio types—cognitive radios—that should firstly, identify the existing spectrum holes, and secondly, utilize them according to an access
The E3 project aims to design cognitive radio systems and gradually evolve wireless networks for increased efficiency. The project involves network operators, equipment manufacturers, regulators and academia. It focuses on using cognitive radio concepts like dynamic spectrum allocation and selection to flexibly use spectrum between operators. This allows systems like LTE-Advanced to potentially use opportunistic spectrum access. The project also examines reconfigurable base stations and terminals, cognition enablers like a cognitive pilot channel, and self-optimization of radio networks.
Cognitive radio networks allow for secondary users to access unused licensed frequencies, known as spectrum holes. The document discusses the history and introduction of cognitive radio, characteristics including cognitive capability, reconfigurable capability, and self-organized capability. It then covers cognitive radio networks architecture including infrastructure-based, ad-hoc, and mesh architectures. It also discusses security issues, attacks on cognitive networks, applications, cognition techniques, and future research directions such as seamless spectrum handovers and proactive spectrum selection and interference avoidance.
Oliver Holland - IEEE VTS UKRI - Energy efficiency challenges of data volume...Keith Nolan
Oliver Holland from King's College London talks about energy efficiency challenges of data volume increases and the use of sleep modes facilitated by opportunistic cognitive radio networking as a solution
Military, Defense and Public Safety Mesh Networks [MeshDynamics]MeshDynamics
The document discusses network-centric warfare and the need for wireless communications technologies to support it. It focuses on four key requirements: mobility, high performance support of real-time protocols, distributed frequency agility, and distributed topologies and network formation. It describes MeshDynamics' wireless mesh technology, which meets these requirements through multi-radio architecture and distributed radio intelligence that allows networks to dynamically configure channels and topology for high performance even in mobile environments.
This document discusses using cognitive radio networks to enable smart grid applications. It begins by introducing smart grids and their need to overcome challenges in aging infrastructure and growing energy demands. It then discusses cognitive radio networks, which can opportunistically access licensed spectrum without interfering with licensed users. The document outlines the key components of cognitive radio networks and smart grids, and proposes using cognitive radio networks to enable smart grid applications at the home area network, neighborhood area network, and wide area network levels. Specifically, it suggests cognitive radio technologies could manage spectrum sharing among smart meters and grid components to improve efficiency and flexibility of smart grid operations.
The Abstracted Network for Industrial Internet- SlidesMeshDynamics
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
This document discusses cognitive radio in 5G networks. It begins with describing the evolution of mobile standards from 1G to 4G. It then introduces the concepts of 5G and cognitive radio. The key points are:
- 5G will provide very high data rates up to 1 Gbps and connect many more devices.
- Cognitive radio can improve spectrum efficiency by allowing unlicensed users to access licensed spectrum holes.
- The document proposes a cognitive radio based 5G network that can integrate various wireless technologies and help manage network complexity using cognitive radio's abilities.
The document discusses cognitive radio networks and dynamic spectrum allocation. It proposes a cognitive sensor network testbed approach using cross-layer analysis. The key functions of cognitive radio devices are sensing to detect spectrum availability, decision making on transmission parameters, spectrum sharing through coordination, and mobility to switch frequencies. The proposal involves a cross-layer protocol stack with interfaces for sensing, decision making, and coordinating media access across layers. Challenges in implementing this approach on wireless sensor networks include time response, bandwidth limits, and energy consumption.
Dynamic frequency allocation in femtocells-based systems: algorithms and perf...Remo Pomposini
This document summarizes the PhD candidate Remo Pomposini's research on dynamic frequency allocation algorithms for femtocell-based systems. It discusses the problem of interference between densely deployed femtocells and proposes using cognitive radio techniques and dynamic frequency selection algorithms to intelligently allocate frequencies. It analyzes the performance of greedy and operator-oriented algorithms through simulations in various network topologies and deployment scenarios. The results show that the greedy algorithm comes closest to optimal frequency assignment and significantly increases the number of active femtocells compared to random assignment.
Cognitive Radio: When might it Become Economically and Technically Feasible? Jeffrey Funk
My Master's students use ideas from my (Jeff Funk) forthcoming book (Technology Change and the Rise of New Industries) to analyze the economic and technical feasibility of cognitive radio. See my other slides for details on concepts, methodology, and other new industries.
Crsm 2 2009 Bill Lehr Mit Policy And Business Issues Of Heterogeneous Wi...imec.archive
The document discusses the heterogeneous wireless future and the implications of increased spectrum sharing. It argues that no single wireless platform will dominate due to the scarcity of radio frequency spectrum. Spectrum must be shared more extensively across services, networks, and infrastructure using software defined radio and cognitive radio technologies. These technologies are essential enablers of dynamic spectrum access and more flexible spectrum management approaches. The future involves greater end-user control over wireless networks and specialized networks operating alongside more integrated platforms.
Cognitive radio is a form of software-defined radio that can be used to address the spectrum crunch by detecting unused spectrum ("spectrum holes") and transmitting on those frequencies without interfering with the licensed users. It works by constantly sensing its operating environment and adapting its transmission parameters, such as frequency band or power level. This allows cognitive radios to opportunistically use vacant spectrum while avoiding occupied bands. Some challenges to the technology include developing specialized hardware, synchronization between devices, and preventing security vulnerabilities or false interference readings.
X-Max is a cognitive radio network developed by xG Technology to deliver mobile services using licensed or unlicensed spectrum. It uses small base stations called xAPs connected to an xMSC through xMod devices. X-Max can intelligently detect available channels and avoid interference using technologies like dynamic spectrum access and 2x4 MIMO antenna configurations. This allows it to provide cost-effective mobile broadband connectivity over large areas using both licensed and unlicensed spectrum bands.
Software defined radio architecture has evolved over time:
(1) Moving analog to digital conversion closer to the antenna to take advantage of digital signal processing.
(2) Substituting software for hardware processing to increase flexibility and upgradeability.
(3) Transitioning from dedicated to general purpose hardware like FPGAs and DSPs, and eventually CPUs.
This evolution has introduced tradeoffs around antennas, RF/IF processing, and digital architectures that influence radio design. It also implies changes to layering and interfaces to support reconfigurability through software. Research issues remain around computational stability, hardware platforms, and integration of services.
MeshDynamics Mesh Networks- High Level OverviewMeshDynamics
MeshDynamics Third Generation Mesh Architecture: Earlier-generation mesh networking products perform poorly in multi-hop (node-to-node relay) environments. MeshDynamics' patented low latency multiple radio wireless mesh preserves high performance [over multiple hops] that's been available only in wired networks until today.
The document discusses X-Max technology, which is a fixed and mobile wireless broadband system that uses cognitive radio technology to deliver services over both licensed and unlicensed spectrum bands. It provides an overview of X-Max, describing its architecture that includes X-Mod devices, X-Ap access points, X-MSC switching centers, and monitoring/management tools. The document outlines how X-Max utilizes advanced cognitive sensing, dynamic spectrum access, and 2x4 MIMO antennas to mitigate interference and guarantee quality of service for mobile VoIP applications. Key advantages of X-Max technology are quality of service for voice, deterministic latency, operating in free licensed spectrum at lower cost than traditional networks.
To solve the 1000x mobile data challenge, we need more small cells, actually, much more, and everywhere— indoors and outdoors, in residences and in enterprises, in all the familiar flavors—3G, 4G and Wi-Fi, and in many different forms — femtos, picos, metros, relays, remote radio heads, distributed antenna systems, etc.! But, isn’t interference a limiting factor? How dense can we deploy them? Can we use new inside-out deployment models?. What are the future enhancements that takes HetNets to the next level?.
For more information, see also www.qualcomm.com/1000x
Download the presentation here: http://www.qualcomm.com/media/documents/1000x-more-small-cells
5G is the next generation of mobile networks that will provide significantly faster speeds and lower latency compared to previous standards. 5G aims to integrate current and future networks to create a multi-bandwidth system capable of speeds over 1 Gbps with flexible bandwidth between 5-20 MHz. Key applications of 5G include enhanced mobile broadband, massive machine type communications, and ultra-reliable low latency communications. 5G networks will utilize technologies like massive MIMO and beamforming to meet performance requirements such as peak rates up to 20 Gbps and support for over a million connections per square meter.
Mobile data traffic is exploding and the industry is now preparing for an astounding 1000x increase. Qualcomm is leading the charge through its compelling technologies and path breaking innovations in preparing the industry to meet this "1000x challenge."
This whitepaper sets the vision for the efforts needed by the industry to achieve this monumental goal; All the while providing solid proof points for the initial concepts and technologies that are building blocks of the overall vision.
4G broadband services can address different market segments like broadband internet, video surveillance, smart power grids, and more. WiMAX offers benefits like bandwidth, spectral efficiency, and future-proofing for machine-to-machine applications. Key requirements for 4G solutions include being affordable, using open standards, supporting flexible spectrum and diverse networks/devices, and ensuring quality of service. WiMAX 2 advances the technology with wider channels, higher order MIMO, and backwards compatibility while maintaining the benefits of WiMAX like spectral efficiency and simple network architecture.
Lte 5 g latim america 2017 what ran and small cell developments will make 5...Alberto Boaventura
Brings the discussion about benefits of SmallCells in order for capturing high density traffic. Also, presents new 5G architecture and technologies for high capacity supporting, such as: mmWave support; massive MIMO; beamforming; New Radio Design; virtualization in the edge;
5G for Reliable Industrial Wireless NetworksAUTOWARE
This document discusses the potential of 5G cellular networks to support reliable industrial wireless communications for factories of the future. It notes that 5G enables ultra-reliable and low latency communications required for applications like industrial robotics. The AUTOWARE project is developing solutions like radio access network slicing and scheduling to ensure deterministic communications over 5G networks to support different traffic types in manufacturing. Field tests of private 5G networks in factory environments show promise for industrial automation and connectivity.
5G Expectation and Beyond - an Operator Perspective - CG GustianaMastel Indonesia
5G technology is expected to enable 1000x faster data speeds and connectivity for billions more devices. From an operator perspective, 5G networks should provide spectrum flexibility, scalable and adaptable network architecture, and intelligent network management. Key expectations include the ability to use any available spectrum, leverage existing infrastructure through network functions virtualization, and enable dynamic resource allocation through automated management. 5G will need to scale to support both high-speed devices and low-power IoT, while integrating legacy networks on a unified platform.
WiMAX BASED APPROACH TO ENHANCE LOCALIZED HUMAN SOCIAL NETWORK.AJAL A J
WiMAX
802.16e is the mobile extension from 802.16
Modification in PHY from OFDM to Scalable OFDMA
Modification in MAC for security, handoff, roaming, & resource management
Ingrid moerman isbo ng wi nets - overview of the projectimec.archive
The document describes an event for the NG Wireless project. It includes an agenda with presentations on monitoring interference using sensing technology, avoiding interference with adaptive protocols, and minimizing interference with cooperative networks. There will also be a presentation on accounting for the impact of interference on revenue modeling and results. After the presentations, there will be demonstration booths and a networking drink.
Increase Profitability with WAV and Exalt SolutionsWAV Inc.
Increase your profitability with Exalt Solutions and WAV Wireless Outfitters.
Go to www.wavonline.com to learn more!
For all of your Wireless needs... WAV's Got You Covered
UK Spectrum Policy Forum - Professor Rahim Tafazolli, University of Surrey: 5...techUK
Professor Rahim Tafazolli, Head of the Centre for Communication Systems Research, University of Surrey
5G Innovation Centre: the UK opportunities
- See more at: http://www.techuk.org/about/uk-spectrum-policy-forum
All Rights Reserved
This document provides an overview of 4G wireless systems. It discusses key features such as support for multimedia services, an all-IP packet switched network, and improved quality of service. The implementation of 4G is described as using a single worldwide IP standard for control, video, and voice. Wireless technologies enabled in 4G include OFDM, UWB, smart antennas, and adaptive modulation. Applications mentioned include use in vehicles, public safety, traffic control, and route selection for first responders. Issues addressed are choosing the optimal access technology and designing an IP architecture to support mobility.
Subham Chakraborty discusses the integration of 5G technology and the Internet of Things (IOT). 5G networks will provide higher bandwidth and lower latency necessary to support the massive increase in connected devices under IOT. Key applications that will benefit include autonomous vehicles, smart cities, healthcare, manufacturing and retail through real-time data collection and analysis from billions of sensors. While 5G presents opportunities, challenges remain around infrastructure requirements, security, and ensuring the technology is accessible and affordable for consumers.
DDS in SCADA, Utilities, Smart Grid and Smart CitiesAngelo Corsaro
This presentation introduces the challenges faced by next generation SCADA, Utilities, and Smart-* applications and show how OpenSplice DDS addresses theses. The presentation also showcases the use of OpenSplice DDS in some relevan use cases.
Similar to Cognitive Radio for Military Communications SPAWAR March 2012 (20)
Digital Marketing Trends in 2024 | Guide for Staying AheadWask
https://www.wask.co/ebooks/digital-marketing-trends-in-2024
Feeling lost in the digital marketing whirlwind of 2024? Technology is changing, consumer habits are evolving, and staying ahead of the curve feels like a never-ending pursuit. This e-book is your compass. Dive into actionable insights to handle the complexities of modern marketing. From hyper-personalization to the power of user-generated content, learn how to build long-term relationships with your audience and unlock the secrets to success in the ever-shifting digital landscape.
A Comprehensive Guide to DeFi Development Services in 2024Intelisync
DeFi represents a paradigm shift in the financial industry. Instead of relying on traditional, centralized institutions like banks, DeFi leverages blockchain technology to create a decentralized network of financial services. This means that financial transactions can occur directly between parties, without intermediaries, using smart contracts on platforms like Ethereum.
In 2024, we are witnessing an explosion of new DeFi projects and protocols, each pushing the boundaries of what’s possible in finance.
In summary, DeFi in 2024 is not just a trend; it’s a revolution that democratizes finance, enhances security and transparency, and fosters continuous innovation. As we proceed through this presentation, we'll explore the various components and services of DeFi in detail, shedding light on how they are transforming the financial landscape.
At Intelisync, we specialize in providing comprehensive DeFi development services tailored to meet the unique needs of our clients. From smart contract development to dApp creation and security audits, we ensure that your DeFi project is built with innovation, security, and scalability in mind. Trust Intelisync to guide you through the intricate landscape of decentralized finance and unlock the full potential of blockchain technology.
Ready to take your DeFi project to the next level? Partner with Intelisync for expert DeFi development services today!
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
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
Nunit vs XUnit vs MSTest Differences Between These Unit Testing Frameworks.pdfflufftailshop
When it comes to unit testing in the .NET ecosystem, developers have a wide range of options available. Among the most popular choices are NUnit, XUnit, and MSTest. These unit testing frameworks provide essential tools and features to help ensure the quality and reliability of code. However, understanding the differences between these frameworks is crucial for selecting the most suitable one for your projects.
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
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Cognitive Radio for Military Communications SPAWAR March 2012
1. xMax Cognitive Radio Networks
The information presented herein is strictly confidential and subject to change without notice. xG® and xMax® are
MARCH 2012 registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved.
www.xgtechnology.com
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 1
www.xgtechnology.com
2. Why cognitive radio matters
Spectrum challenges for the warfighter are Civilian and host nation operators are
multiplied by global operations and jamming demanding additional spectrum resources for
(intentional & unintentional) data hungry consumers
Inundated
Global
Spectrum
Existing Spectrum Allocations
Exponential globalSpectrum Allocations challenges
Existing spectrum management
Dynamic Spectrum Access (DSA) and Cognitive Radio
• Identify and access unused spectrum globally
Solution
• Advanced interference detection, mitigation and avoidance
• Connectivity and capacity – when and where needed
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 2
www.xgtechnology.com
3. Commercial vs. military challenges
Commercial Environment Military Environment
Massive demand for wireless applications Issue every soldier a cell phone
Limited supply of spectrum No new spectrum – relocate/share existing?
Lack of spectrum precludes new market Host nation spectrum access
entry
Expensive service plans Expensive service plans
Mobility On the move
Smartphone adoption Smartphone as force multiplier
► Shared pursuit of a cost-effective mobile voice and broadband capability
using a single set of IP infrastructure
► Flexible all-IP architecture allows xMax to answer commercial and unique
military requirements – “future-proof”
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 3
www.xgtechnology.com
4. Unique military requirements
Commercial Environment Military Environment
MilitaryEnvironment
Massive demand for wireless applications Issue every soldier a cell phone
Issueevery soldier a cell phone
Limited supply of spectrum No new spectrum – – relocate/share exisiting?
new spectrum relocate/share existing?
Lack of spectrum precludes new market entry Host nation spectrum access
Host nation spectrum access
Expensive service plans Expensive service plans
Expensive service plans
Mobility On the move
On the move
Smartphone adoption Smartphone as force multiplier
Smartphone as force multiplier
Security, encryption, LPD, LPI, LPJ
Additional requirements Reduced SWaP
Expeditionary/tactical networks
“Commercial cellular communications Real-time apps, low latency, future-proof
has much to offer the Army but
Rapid deploy, self organizing networks
CANNOT support all phases of military
operations” Precedence, flow management
– CERDEC S&TCD Feb 8th, 2011 Apps, C3I, across the operational continuum
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 4
www.xgtechnology.com
5. Traditional approach …
► Cognitive radio identifies spectrum that is not
being fully used …
► … and dynamically tunes to those frequencies if
interference is detected on channel currently in
use (DSA)
► Priority is to minimize interference to other
devices by ‘running away’
► Often, alternative channel choice preset (and can
be predicted and hacked/jammed)
The focus on ‘running away’ from interference does a poor job of optimizing all available
spectrum resources i.e., Grey/Black Spaces, not “White Spaces”
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 5
www.xgtechnology.com
6. … vs. xMax approach
► Advanced sensing and multi-spatial interference
mitigation and avoidance technologies offer the ability
− both to mitigate interference, which extends “dwell
time” on the current frequency …
− … and avoid interference by hopping to other ‘cleaner’
channel instantly if interference is overwhelming and
performance falls below set thresholds (within 40ms)
► In addition, to maximize throughput (or range) and
minimize interference, xMax dynamically adapts
network architecture to real-time conditions
− power output
− modulation
− channel plan
− network protocol
xG’s cognitive radio network solution dynamically optimizes spectrum utilization through
opportunistic use of all available resources
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 6
www.xgtechnology.com
7. xMax cognitive radio
► xMax layered cognitive approach
− spectrum sensing: interference based detection of transmitters (background scan every
20ms)
− spatial processing: MIMO technologies allow resistance to interferers. Optimize SNR using
multiple antenna processing to improve link budget and data rates. Also used to track and
cancel interference from multiple mobile transmitters using sophisticated multi-spatial
signal processing algorithms
− spectrum sharing: able to operate in crowded shared spectrum (ISM, UNI II etc.). Detect
interferers, mitigate them or avoid them by changing operating parameters or frequencies
− spectrum management: capture the best available spectrum for use at any time. Can add
capacity anywhere, any time without using existing frequencies
− spectrum mobility: use spectrum dynamically (DSA). Mobile user terminals and base
stations can decide to change bands where they operate
“Unlike other cognitive radio systems currently being trialed, xMax features advanced interference detection and
avoidance capabilities designed to work around both intentional and unintentional interference. ”
– White Paper: “ New Approaches To Optimizing Radio Spectrum” (Andrew Seybold), December 2011
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 7
www.xgtechnology.com
8. xMax cognitive operation
► xMax takes cognitive operation way beyond simple spectrum sensing
Real Time Inputs Dynamic Decisions
Link measurements Spectrum/channel use …
RF conditions Modulation rates …
Application requirements Receiver algorithms …
Location of interferers Antenna configuration …
Spectrum availability Interference mitigation …
Network conditions Transmit power …
Internal/external policies Network protocols …
Internal capabilities Error correction …
Power/battery status
► Decisions are made at the edge by the end user device
− asymmetry of interference
− local sensing and measurements adapts to interference across each end of the RAN
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 8
www.xgtechnology.com
9. xMax features
► xMax - the world’s first wide area cellular cognitive radio network solution
– fully mobile (highway speeds) as well as fixed applications
– high QoS, carrier-grade voice, data and video on single integrated network
– low cost: no spectrum licence fees, lower network engineering and management costs
– frequency agnostic – supports global deployment
– rapidly deployable – leverages existing Internet infrastructure; satellite backhaul
– highly scalable – coverage and capacity can be tailored to the need
– end-to-end Internet Protocol (IP) system – can be integrated into any IP service (e.g.,
Skype) and device (e.g., smartphone)
► System level experience in Fort Lauderdale trial network demonstrated the need for
a broader network solution
– building on the foundations of Dynamic Spectrum Access
" Put simply, xMax enables enterprises of any kind to set up a mobile communications network quickly, cheaply
and efficiently – providing a licensed spectrum experience to end users operating in unlicensed spectrum. As
such, the addressable market is vast.“
– Matt Walker, Research Analyst, First Columbus
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 9
www.xgtechnology.com
10. xMax features
► Dynamic Spectrum Access (DSA) is key
► BUT xG’s Cognitive Network solution xMax delivers much more than just DSA
• ASIC:
2014 Moves xMax functionality to chip level
ASIC Installation by any OEM
2013 • MANET:
MANET
Mobile mesh networks
Every user makes the network stronger
xG’s Complete Self Organising
• Self-Organising Networks:
Cognitive Networks
Automatic networking & optimization
Network No wireless experience needed
Solution 2012
Interference
Mitigation • Interference Mitigation:
xMax works where other radios can’t
Higher capacity and reliability
MIMO
• MIMO:
Extent of Extends range and throughput
Competitors Dynamic Lower cost per bit & per customer
Cognitive Spectrum 2011
Radio Access • Dynamic Spectrum Access:
Technology Finds & uses available frequencies
Optimizes spectrum resources
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 10
www.xgtechnology.com
11. Pilot networks
“These are major-league
Urban/Suburban - Ft. Lauderdale, Florida pioneers who have built
– fully mobile 32 mile2 network something that works
well.“
– densely populated —Craig Mathias,
– interference-rich environment Wireless Analyst, 2010
– extensive testing has allowed continual system
performance enhancement and development of
Ft. Lauderdale, FL robust system
Military - US Army - TX, NM, NJ
– lab validated (CERDEC)
– garrison enterprise solution
White Sands, NM – tactical cellular – austere desert
Rural – Lewisville, Arkansas
– underserved market
– low noise, excellent range
Lewisville, AR
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 11
www.xgtechnology.com
12. 1H11 deployment platform
►Full Tactical Deployment
– proven in the field at Fort Bliss and White
Sands Missile Range
– self-contained and highly mobile
– seamless integration with SatCom backhaul
– can add capacity anywhere, any time without
using existing frequencies
– resistant to jamming
• “The solution has proven to operate very
reliably, even when confronted by intentional
jamming” (Mike McCarthy, Director of
Operations for the Mission Command
Complex, Fort Bliss)
Proven in the most challenging conditions – for both fixed and tactical deployments
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 12
www.xgtechnology.com
13. Game changing capabilities
Military tests of xG Technology solution could have
domestic implications
Nov 16, 2011 5:58 PM, By Donny Jackson
(donald.jackson@penton.com)
. . . .commercial-wireless executives
have been outspoken in proclaiming
a “spectrum crisis” that federal
policymakers have been working
feverishly to resolve . . ..
. . . ., the military has opted to conduct its own tests . . .And
the xMax system tested at Fort Bliss was “exceptionally
impressive,” according to Mike McCarthy, director of
operations for the Mission Command Complex at the Brigade
Modernization Command at Fort Bliss
McCarthy said the military plans to conduct further tests in the spring to “push that system as far as we can push it”
“The results of these tests should be of interest to many, not just those in the military. If the xMax system proves that it can provide
reliable communications over unlicensed spectrum, the utility of unlicensed bands and prospects for wireless communications
operating in the TV white spaces could be transformed in the near future”
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 13
www.xgtechnology.com
14. xMax system
VoIP
Cellular CORE
Network
POTS calling
SMS service
xMax Wireless Network xMSC
Public
or
Private
Wi-Fi Internet
Network SMS
server
xMSC provides
xMod is a network
Smartphones, mobile bridge xAPs provide management,
laptops, tablets or between WiFi wireless voice, firewall , SIP
any other WiFi and the xMax data and proxies, and
enabled device can network video.connectivity SMS servers
connect to the xMod to xMods
WiFi Network xMax Cognitive Radio Network (C-RAN) Core Network Public/Private Network
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 14
www.xgtechnology.com
15. Product roadmap
v1.1: Dynamic Spectrum Access (DSA) VoIP & SMS Network (2011)
VoIP
SOFTSWITCH xMSC BSN250
TX70
GIG
• DYNAMIC SPECTRUM ACCESS
PSTN • PSTN • VOICE & SMS
• E911 • xMONITOR • MACRO CELLS • Wi-Fi
• LOW COST CALLING • xDRIVE • 900MHz
Current network: DSA handsets Dynamically analyzes spectrum at the edge to
avoid localized interference
v2.0: Enable Mobile Data and COTS Smart Devices on Cognitive Radio Network (Q1 2012)
VoIP ANDROID OS
SOFTSWITCH xMSC BSN250
RIM OS
xMOD
GIG
PSTN • PSTN WINDOWS
• E911 • xMONITOR • MACRO CELLS • xMAX to WIFI APPLE OS
OS
• LOW COST CALLING • xDRIVE • DATA BRIDGE
• MIMO • END DEVICE
AGNOSTIC
Broadband data and scalable VoIP Leverage COTS smart phones
on one set of infrastructure and apps at the edge
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 15
www.xgtechnology.com
16. Product roadmap
v2.5: Self-Organizing Net, Micro Base Station, Higher Throughput (2012)
ANDROID OS Apps & Capabilities
xMSC xAP
xMOD RIM OS •VoIP & Data
•DSA
GIG •PTT, Call Groups
PSTN • MICRO ACCESS POINT • HIGHER •QoS - Latency
• PSTN
• xMONITOR • SELF-ORGANIZING DATA RATE •PLI
• E911 • REDUCE SWaP + C • LONGER
• xDRIVE WINDOWS
•Encryption
• LOW COST CALLING • 900MHz + (700MHz OPT) RANGE OS
APPLE OS
v3.0: Fully Mobile Expeditionary Network, Additional Frequency (2013) Capabilities
ANDROID OS •DSA
xMSC xAP RIM OS •Cognitive MANET
xMOD
•Global operation
GIG
•Enhance & extend
PSTN • HIGHER commercial cellular
• PSTN • xMONITOR DATA RATE
• FULLY MOBILE •Reduced Cost
• E911 • xDRIVE • LONGER WINDOWS
• LOW COST CALLING • SELF-ORGANIZING RANGE OS
APPLE OS
• REDUCE SWaP + C
Expeditionary, fully mobile IP cellular network access points Cognitive, Self-organizing networks
v4.0: xMax functionality on a chip (2014) Capabilities
ANDROID OS
xAP •DSA
xMSC
xMOD RIM OS •Cognitive MANET
GIG •COTS devices
•Global operation
PSTN • PSTN • HIGHER •Enhance & extend
• E911 • FULLY MOBILE DATA RATE
• xMONITOR WINDOWS commercial cellular
• LOW COST CALLING • SELF-ORGANIZING • LONGER
• xDRIVE OS •Low cost
• REDUCE SWaP + C RANGE APPLE OS
Chip solution for incorporation in end-user devices Enables full cognitive capability on COTS handsets
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 16
www.xgtechnology.com
17. Dynamic radio adaptation
Cognitive Network
Video
• High Bit Rate Modulation
• 5GHz
VoIP
• High Power File Transfer
• Low Bit Rate
Modulation • High Bit Rate
• 5GHz Modulation
• Low Power • 900MHz
VoIP • Medium Power
• Medium Bit Rate
Modulation
• 900MHz
• Low Power
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 17
www.xgtechnology.com
18. Dynamic radio adaptation
Cognitive Network
Video
• High Bit Rate Modulation
VoIP • 900MHz
• High Power File Transfer
• Low Bit Rate
Modulation • High Bit Rate
• 5GHz Modulation
• Low Power • 900MHz
VoIP • High Power
• Low Bit Rate
Interferers Modulation
• 900MHz
• Low Power
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 18
www.xgtechnology.com
19. Network protocol adaptation
Damage to Network Infrastructure
Cognitive Radio
Reincorporates
Network reconfigures
network
to mesh operation
infrastructure
(cognitive network
when available
protocol)
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 19
www.xgtechnology.com
20. Key benefits xMax offers military
► Self-frequency planning - the system comes up automatically and finds available
frequencies; no manual frequency co-ordination required
► Self-optimizing- the system uses DSA technology to maximize throughput and
reliability, delivering a licensed spectrum experience in unlicensed spectrum
► Leverages existing smartphones, laptops, tablets, etc. directly into the xMax
mobile radio network to save costs and offer unmatched applications and
functionality
► End-to-end IP architecture - simplifies integration with LTE, P25 and other
networks via industry standard interfaces and protocols; voice can be tagged
and prioritized end-to-end through network for high reliability
► Tactical and scalable deployments – rapidly deployable size and weight, proven
integration with satellite and point to point backhaul radios
► Difficult to jam or hack – dynamic channel/band hopping makes jamming
attacks and penetrations far more difficult than traditional radio systems
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 20
www.xgtechnology.com
21. Leverage DoD/MoD Capabilities
Army App
Soldier
“I ran an excursion where we
attempted to jam it with
WiFi
conventional military jamming
xMod systems, and we were unable to do
it, xMax was able to stay ahead of
COTS the jammers that were trying to
Smart Phone
Data Access
attack it and kept the
communications systems up and
Command Post operational throughout the two
•Voice & Data weeks that I ran the jammers”.
•Push & receive video
•Share pictures Mike McCarthy, Director of
•Position location info (PLI)
Operations, Brigade Modernization
•Collaborate, whiteboard , chat
•SMS, text, Command , Ft. Bliss, TX
•PTT, call group
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 21
www.xgtechnology.com
22. Summary
► xMax represents a scalable, flexible and fully
expeditionary architecture that
– supports small teams to large
– offloads cellular costs to help make “one soldier
one phone” affordable
– addresses global spectrum challenges
► xG is committed to meeting military
requirements
– deliver capabilities via software vs. hardware
– future-proofing
– shoulder-to-shoulder partnership – learn
requirements, adapt platform, deliver solutions
The information presented herein is confidential and subject to change without notice. xG® and xMax® are
registered trademarks of xG Technology, Inc. Copyright 2012, All Rights Reserved. 22
www.xgtechnology.com