LoRa smart led road light control system 161116_homepageljk1104
This document describes a LoRa smart LED streetlight management system that uses IoT technology. The system includes:
1) LoRa dimmers attached to each streetlight that can control lighting and sensors.
2) LTE-LoRa gateways that connect to the LoRa network and an LTE network for internet access.
3) A management server that allows remote control and monitoring of streetlights over the internet.
4) A smartphone app for users to control streetlights, view their status, and assist with maintenance.
The system provides benefits like remote monitoring and control of streetlights, energy usage analytics, and assistance with maintenance through the mobile app. It uses LoRa for long
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?
This webinar with Rohit Gupta, Olivier Hersent and Bart Hendriks aims to reply to the following questions: What are the market opportunities and use cases enabled by IoT Geolocation? What are the benefits of multi-technology geolocation? What are the benefits of using LPWAN technologies (LoRaWAN, NB-IoT, LTE-M) for connectivity? How LPWAN-enabled Geolocation will evolve in the future? How is Actility building multi-technology geolocation platform?
The document provides an overview of Low Power Wide Area (LPWA) networks and technologies. It discusses that LPWA networks are needed to connect billions of low-power devices over long ranges using low-cost radio technologies. Examples of LPWA technologies include LoRa, SigFox, NB-IoT and EC-GPRS. The document also outlines potential use cases for LPWA networks in areas like smart cities, utilities, agriculture and more.
This document provides an overview and comparison of LoRa and NB-IoT low-power wide area network (LPWA) technologies. It discusses that both technologies were developed for applications requiring long battery life and low data rates. LoRa is an unlicensed standard based on chirp spread spectrum modulation, while NB-IoT is a licensed narrowband cellular standard developed by 3GPP. Key differences are that LoRa has lower device costs and supports higher latencies, while NB-IoT can leverage existing cellular networks and has higher data rates. In conclusion, LoRa is a new dedicated technology for IoT platforms, while NB-IoT uses existing cellular infrastructure.
This document provides an introduction to LoRa and LoRaWAN networks. It discusses the history and technology behind LoRa, including its long range of 2-5 km in urban areas and 15 km in suburban areas. It also covers LoRa modules, gateways, and network options. Key aspects of LoRa technology include its long battery life, support for low data rates over long distances, and use of spread spectrum modulation. LoRaWAN is described as an open standard for wireless battery operated devices to connect in regional, national or global networks. Examples of LoRa applications include smart farming, industrial monitoring, smart cities, and asset tracking.
Geolocation with LPWAN LoRa IoT Networks, a "Must have" Killer application. Benefits from Radio degree of Freedom brought by LoRaWAN Network, adaptive data rates, Femtocells densification - illustration of performance trends.
Authors: Thierry Lestable (Ph.D), Massinissa Lalam (Ph.D) and Maxime Grau
The document provides an overview of Internet of Things (IoT) technologies, including both short and long range wireless technologies. It discusses low power wide area network standards like LoRaWAN and SigFox, as well as cellular technologies like LTE, LTE-Advanced, and 5G. It covers a wide range of topics like network architecture, spectrum fragmentation issues, carrier aggregation techniques, and voice over LTE. The presentation aims to provide insight into both current and emerging IoT/M2M technologies and their applications from both a technical and market perspective.
LoRa smart led road light control system 161116_homepageljk1104
This document describes a LoRa smart LED streetlight management system that uses IoT technology. The system includes:
1) LoRa dimmers attached to each streetlight that can control lighting and sensors.
2) LTE-LoRa gateways that connect to the LoRa network and an LTE network for internet access.
3) A management server that allows remote control and monitoring of streetlights over the internet.
4) A smartphone app for users to control streetlights, view their status, and assist with maintenance.
The system provides benefits like remote monitoring and control of streetlights, energy usage analytics, and assistance with maintenance through the mobile app. It uses LoRa for long
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?
This webinar with Rohit Gupta, Olivier Hersent and Bart Hendriks aims to reply to the following questions: What are the market opportunities and use cases enabled by IoT Geolocation? What are the benefits of multi-technology geolocation? What are the benefits of using LPWAN technologies (LoRaWAN, NB-IoT, LTE-M) for connectivity? How LPWAN-enabled Geolocation will evolve in the future? How is Actility building multi-technology geolocation platform?
The document provides an overview of Low Power Wide Area (LPWA) networks and technologies. It discusses that LPWA networks are needed to connect billions of low-power devices over long ranges using low-cost radio technologies. Examples of LPWA technologies include LoRa, SigFox, NB-IoT and EC-GPRS. The document also outlines potential use cases for LPWA networks in areas like smart cities, utilities, agriculture and more.
This document provides an overview and comparison of LoRa and NB-IoT low-power wide area network (LPWA) technologies. It discusses that both technologies were developed for applications requiring long battery life and low data rates. LoRa is an unlicensed standard based on chirp spread spectrum modulation, while NB-IoT is a licensed narrowband cellular standard developed by 3GPP. Key differences are that LoRa has lower device costs and supports higher latencies, while NB-IoT can leverage existing cellular networks and has higher data rates. In conclusion, LoRa is a new dedicated technology for IoT platforms, while NB-IoT uses existing cellular infrastructure.
This document provides an introduction to LoRa and LoRaWAN networks. It discusses the history and technology behind LoRa, including its long range of 2-5 km in urban areas and 15 km in suburban areas. It also covers LoRa modules, gateways, and network options. Key aspects of LoRa technology include its long battery life, support for low data rates over long distances, and use of spread spectrum modulation. LoRaWAN is described as an open standard for wireless battery operated devices to connect in regional, national or global networks. Examples of LoRa applications include smart farming, industrial monitoring, smart cities, and asset tracking.
Geolocation with LPWAN LoRa IoT Networks, a "Must have" Killer application. Benefits from Radio degree of Freedom brought by LoRaWAN Network, adaptive data rates, Femtocells densification - illustration of performance trends.
Authors: Thierry Lestable (Ph.D), Massinissa Lalam (Ph.D) and Maxime Grau
The document provides an overview of Internet of Things (IoT) technologies, including both short and long range wireless technologies. It discusses low power wide area network standards like LoRaWAN and SigFox, as well as cellular technologies like LTE, LTE-Advanced, and 5G. It covers a wide range of topics like network architecture, spectrum fragmentation issues, carrier aggregation techniques, and voice over LTE. The presentation aims to provide insight into both current and emerging IoT/M2M technologies and their applications from both a technical and market perspective.
This document provides a technical overview of LoRa and LoRaWAN. It defines LoRa as the physical layer modulation that enables long-range communication, while LoRaWAN is the communication protocol and network architecture. Key aspects of LoRaWAN covered include the star network topology, support for multiple device classes to optimize battery life and latency, adaptive data rates for high network capacity, and security features. Regional variations of the LoRaWAN specification are described for Europe and North America. Comparisons are made between LoRaWAN and other LPWAN technologies, highlighting LoRaWAN's advantages in areas like battery life, coverage, cost, and ability to support a variety of IoT applications.
This white paper gives an overview of new solutions provided by telecom operators to support the “Internet of Things” (IoT) vision. This scan describes the developments and planning and compares three technologies; AntTail’meshnetworks, LORA and NB-IoT.
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.
NB-IoT VS Lora
This article is talking about NB-IoT VS Lora, comparative analysis of NB-IoT and Lora technology.
The rapid development of the Internet of Things puts forward higher requirements for wireless communication technology. The LPWAN (low-power Wide-Area Network) is also rapidly emerging.
IoT applications need to consider many factors, such as node costs, network costs, battery life, data transmission rate (throughput), latency, mobility, network coverage, and deployment types. It can be said that no single technology can meet all IoT requirements demand.
NB-IoT and LoRa have different technical and commercial characteristics and are also the two most promising low-power wide-area network communication technologies.
Both of these LPWAN technologies have the characteristics of wide coverage, multiple connections, low speed, low cost, and low power consumption. Both are suitable for low-power IoT applications and are actively expanding their ecosystems.
3GPP/GSMA technologies for LPWAN in the Licensed SpectrumTiE Bangalore
1) The document discusses 3GPP/GSMA technologies for low-power wide-area networks (LPWAN) in licensed spectrum, including Narrowband IoT (NB-IoT), LTE-M, and EC-GSM.
2) These technologies aim to provide long battery life, low device cost, extended coverage, and support for various traffic patterns including non-IP and IP traffic using techniques like power saving modes and signal repetition.
3) They operate within licensed cellular bands and core network to provide global connectivity, but require a minimum 200kHz spectrum allocation which limits private networks.
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.
This document discusses Sierra Wireless and 3GPP LTE-M technology for low-power wide area networks. It provides an overview of Sierra Wireless as a leading IoT solutions provider and describes their portfolio of embedded modules. It then outlines the key benefits of LTE-M technology, including its ability to enable long battery life, wide area coverage, and low device complexity. Several live LTE-M networks deployed by major carriers are highlighted.
NB-IoT: a sustainable technology for connecting billions of devicesEricsson
Under the umbrella of 3GPP, radio-access technologies for mobile broadband have evolved effectively to provide connectivity to billions of subscribers and things. Within this ecosystem, the standardization of a radio technology for massive MTC applications – narrowband IoT (NB-IoT) – is also evolving. The aim is for this technology to provide cost-effective connectivity to billions of IoT devices, supporting low power consumption, the use of low-cost devices, and provision of excellent coverage – all rolled out as software on top of existing LTE infrastructure. The design of NB-IoT mimics that of LTE, facilitating radio network evolution and efficient coexistence with MBB, reducing time to market, and reaping the benefits of standardization and economies of scale.
The IoT embeds a broad range of MTC applications, and among the different types, massive MTC – including applications like smart metering, agriculture and real estate monitoring – sets a number of performance targets for connectivity. Attempting to meet these IoT targets using a radio-access technology designed for mobile broadband, however, doesn't make economic sense. Networks that provide connectivity to massive MTC applications need a radio-access technology that can deliver widespread coverage and low power consumption, often in signal-challenged locations. Hence the need for narrowband-IoT (NB-IoT).
NB-IoT is a 3GPP radio-access technology designed to meet the connectivity requirements for massive MTC applications, as well as the design targets for IoT including low device cost, extended coverage, 40 devices per household, long battery life, and uplink latency of under 10 seconds.
NB-IoT enjoys all the benefits of licensed spectrum, the feature richness of EPC, and the overall ecosystem spread of 3GPP. At the same time, NB-IoT has been designed to meet the challenging TCO structure of the IoT market.
This articles reveals how NB-IoT is being designed and how it can be deployed in GSM spectrum, within an LTE carrier, or in an LTE or WCDMA guard band.
Which solution you should choose to deploy your IoT network.
LoRa, Sigfox, LTE-M are very similar in nature and functionality, which can confuse you during the decision-making process.
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?
This document discusses wireless sensor technologies, focusing on LoRa and LoRaWAN. It defines LoRa as a long-range wireless communication protocol that operates in the license-free ISM radio bands and can be used to connect low-power devices. LoRaWAN is described as a network protocol that allows bi-directional communication between end-point devices and a central network server using LoRa. The document outlines the key components of LoRa networks including end-point devices (nodes), gateways that connect nodes to a network server, and network servers that communicate with end-point devices via gateways. It also describes LoRa network parameters and classes of devices in LoRaWAN networks.
Cellular LPWA networks like LTE-M and NB-IoT provide significant improvements over previous cellular technologies in three key areas: consumption, coverage, and cost. Consumption is reduced 100x through power saving modes, extended discontinuous reception, and radio signaling optimizations. Coverage is increased 5-10x using techniques like repetitions with hybrid automatic repeat request and frequency hopping. Cost is reduced 50% through a 75% reduction in complexity, tighter integration, and economies of scale. These networks are available now globally through modules and devices from Sierra Wireless.
What is Lora wireless communication technology?
Lora wireless communication technology is Long Range Radio wireless communication technology. It is a low-power LAN wireless standard created by Semtech company. Its biggest feature is that it can travel farther than other wireless methods under the same power consumption condition, achieving low power consumption and Long-distance unity, it is 3-5 times longer than the traditional radio frequency communication distance under the same power consumption.
The document describes the fundamentals of WCDMA radio access networks. It covers topics such as wireless signal propagation, CDMA principles including spreading and despreading, channel coding, and modulation techniques used in WCDMA like QPSK. It also discusses concepts like channelization codes, scrambling codes and the use of a RAKE receiver to mitigate multipath fading in WCDMA systems.
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.
Lte - advance in unlicensed spectrum for 1000xSatya Harish
This document discusses using unlicensed spectrum for LTE deployments to achieve 1000x gains in capacity. It describes LTE-U and carrier Wi-Fi solutions for using unlicensed 5 GHz spectrum, including LTE-WiFi link aggregation using dual connectivity to improve performance. LTE-U deployments are described using both adaptive duty cycling for early deployments, as well as Listen Before Talk as standardized in 3GPP Release 13 to ensure fair coexistence with Wi-Fi networks. Test results show LTE-U can achieve higher capacity than Wi-Fi while maintaining Wi-Fi performance in dense deployments.
3GPP Standards for the Internet-of-ThingsEiko Seidel
Presenation by 3GPP RAN3 Chairman - Philippe Reininger - at the IoT Business & Technologies Congress (November 30, in Singapore). Main topics are eMTC, NB-IOT and EC-GSM-IoT as completed in 3GPP Release 13 and enhanced in Release 14
This document provides an overview of Low Power Wide Area Networks (LPWAN) technologies. It discusses the key characteristics of LPWAN such as operating at a long range of up to 10km using little battery power and transmitting small amounts of data. It summarizes the major LPWAN technologies including LoRaWAN, Sigfox, NB-IoT and LTE-CAT M1. It also outlines the growth in the number of LPWAN devices, networks and applications. Examples of common LPWAN uses cases like smart metering and asset tracking are also highlighted.
This document provides an overview of Narrow Band Internet of Things (NB IoT) technology. It begins with introductions to IoT and the key elements that make up IoT systems. It then describes NB IoT, including its objectives to enable low cost, long battery life connections for a large number of devices. The document outlines the NB IoT standards development and provides details on its deployment scenarios, operation modes, architecture and characteristics. It also summarizes the different layers of the NB IoT protocol stack, including the radio resource control layer.
LoRa is a long range wireless radio technology for low power wide area networks (LPWANs) used in IoT and M2M applications. It uses license-free sub-GHz frequency bands and spreads signals over a wide bandwidth for long-range transmissions of up to 5-15 km in rural areas and 2-5 km in urban areas using low power consumption from battery-powered devices. The LoRa Alliance oversees the LoRaWAN standard to enable interoperability.
Indoor Navigation - A Solution to Last Mile ProblemRanga Vangipuram
Indoor navigation provides location services and navigation for indoor environments like airports, hospitals, warehouses, and offices. It uses mapping technologies to convert floor plans into digital maps, navigation technologies to calculate shortest paths between locations, and positioning technologies like WiFi, Bluetooth, and QR codes to determine a user's indoor position. The technology stack includes layers for mapping, navigation, positioning, applications, and an interactive user interface. Indoor navigation helps users and staff navigate large indoor spaces and find amenities and points of interest.
The document discusses Internet of Things (IoT) solutions and development platforms. It defines IoT and describes the business benefits, including enhanced customer service, increased revenue, improved asset usage, and more data for analytics. The document outlines the key components of an IoT implementation architecture, including devices, connectivity protocols, data storage, security, and analytics services. It also discusses improving IoT through process re-engineering, productivity gains, and establishing business objectives.
This document provides a technical overview of LoRa and LoRaWAN. It defines LoRa as the physical layer modulation that enables long-range communication, while LoRaWAN is the communication protocol and network architecture. Key aspects of LoRaWAN covered include the star network topology, support for multiple device classes to optimize battery life and latency, adaptive data rates for high network capacity, and security features. Regional variations of the LoRaWAN specification are described for Europe and North America. Comparisons are made between LoRaWAN and other LPWAN technologies, highlighting LoRaWAN's advantages in areas like battery life, coverage, cost, and ability to support a variety of IoT applications.
This white paper gives an overview of new solutions provided by telecom operators to support the “Internet of Things” (IoT) vision. This scan describes the developments and planning and compares three technologies; AntTail’meshnetworks, LORA and NB-IoT.
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.
NB-IoT VS Lora
This article is talking about NB-IoT VS Lora, comparative analysis of NB-IoT and Lora technology.
The rapid development of the Internet of Things puts forward higher requirements for wireless communication technology. The LPWAN (low-power Wide-Area Network) is also rapidly emerging.
IoT applications need to consider many factors, such as node costs, network costs, battery life, data transmission rate (throughput), latency, mobility, network coverage, and deployment types. It can be said that no single technology can meet all IoT requirements demand.
NB-IoT and LoRa have different technical and commercial characteristics and are also the two most promising low-power wide-area network communication technologies.
Both of these LPWAN technologies have the characteristics of wide coverage, multiple connections, low speed, low cost, and low power consumption. Both are suitable for low-power IoT applications and are actively expanding their ecosystems.
3GPP/GSMA technologies for LPWAN in the Licensed SpectrumTiE Bangalore
1) The document discusses 3GPP/GSMA technologies for low-power wide-area networks (LPWAN) in licensed spectrum, including Narrowband IoT (NB-IoT), LTE-M, and EC-GSM.
2) These technologies aim to provide long battery life, low device cost, extended coverage, and support for various traffic patterns including non-IP and IP traffic using techniques like power saving modes and signal repetition.
3) They operate within licensed cellular bands and core network to provide global connectivity, but require a minimum 200kHz spectrum allocation which limits private networks.
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.
This document discusses Sierra Wireless and 3GPP LTE-M technology for low-power wide area networks. It provides an overview of Sierra Wireless as a leading IoT solutions provider and describes their portfolio of embedded modules. It then outlines the key benefits of LTE-M technology, including its ability to enable long battery life, wide area coverage, and low device complexity. Several live LTE-M networks deployed by major carriers are highlighted.
NB-IoT: a sustainable technology for connecting billions of devicesEricsson
Under the umbrella of 3GPP, radio-access technologies for mobile broadband have evolved effectively to provide connectivity to billions of subscribers and things. Within this ecosystem, the standardization of a radio technology for massive MTC applications – narrowband IoT (NB-IoT) – is also evolving. The aim is for this technology to provide cost-effective connectivity to billions of IoT devices, supporting low power consumption, the use of low-cost devices, and provision of excellent coverage – all rolled out as software on top of existing LTE infrastructure. The design of NB-IoT mimics that of LTE, facilitating radio network evolution and efficient coexistence with MBB, reducing time to market, and reaping the benefits of standardization and economies of scale.
The IoT embeds a broad range of MTC applications, and among the different types, massive MTC – including applications like smart metering, agriculture and real estate monitoring – sets a number of performance targets for connectivity. Attempting to meet these IoT targets using a radio-access technology designed for mobile broadband, however, doesn't make economic sense. Networks that provide connectivity to massive MTC applications need a radio-access technology that can deliver widespread coverage and low power consumption, often in signal-challenged locations. Hence the need for narrowband-IoT (NB-IoT).
NB-IoT is a 3GPP radio-access technology designed to meet the connectivity requirements for massive MTC applications, as well as the design targets for IoT including low device cost, extended coverage, 40 devices per household, long battery life, and uplink latency of under 10 seconds.
NB-IoT enjoys all the benefits of licensed spectrum, the feature richness of EPC, and the overall ecosystem spread of 3GPP. At the same time, NB-IoT has been designed to meet the challenging TCO structure of the IoT market.
This articles reveals how NB-IoT is being designed and how it can be deployed in GSM spectrum, within an LTE carrier, or in an LTE or WCDMA guard band.
Which solution you should choose to deploy your IoT network.
LoRa, Sigfox, LTE-M are very similar in nature and functionality, which can confuse you during the decision-making process.
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?
This document discusses wireless sensor technologies, focusing on LoRa and LoRaWAN. It defines LoRa as a long-range wireless communication protocol that operates in the license-free ISM radio bands and can be used to connect low-power devices. LoRaWAN is described as a network protocol that allows bi-directional communication between end-point devices and a central network server using LoRa. The document outlines the key components of LoRa networks including end-point devices (nodes), gateways that connect nodes to a network server, and network servers that communicate with end-point devices via gateways. It also describes LoRa network parameters and classes of devices in LoRaWAN networks.
Cellular LPWA networks like LTE-M and NB-IoT provide significant improvements over previous cellular technologies in three key areas: consumption, coverage, and cost. Consumption is reduced 100x through power saving modes, extended discontinuous reception, and radio signaling optimizations. Coverage is increased 5-10x using techniques like repetitions with hybrid automatic repeat request and frequency hopping. Cost is reduced 50% through a 75% reduction in complexity, tighter integration, and economies of scale. These networks are available now globally through modules and devices from Sierra Wireless.
What is Lora wireless communication technology?
Lora wireless communication technology is Long Range Radio wireless communication technology. It is a low-power LAN wireless standard created by Semtech company. Its biggest feature is that it can travel farther than other wireless methods under the same power consumption condition, achieving low power consumption and Long-distance unity, it is 3-5 times longer than the traditional radio frequency communication distance under the same power consumption.
The document describes the fundamentals of WCDMA radio access networks. It covers topics such as wireless signal propagation, CDMA principles including spreading and despreading, channel coding, and modulation techniques used in WCDMA like QPSK. It also discusses concepts like channelization codes, scrambling codes and the use of a RAKE receiver to mitigate multipath fading in WCDMA systems.
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.
Lte - advance in unlicensed spectrum for 1000xSatya Harish
This document discusses using unlicensed spectrum for LTE deployments to achieve 1000x gains in capacity. It describes LTE-U and carrier Wi-Fi solutions for using unlicensed 5 GHz spectrum, including LTE-WiFi link aggregation using dual connectivity to improve performance. LTE-U deployments are described using both adaptive duty cycling for early deployments, as well as Listen Before Talk as standardized in 3GPP Release 13 to ensure fair coexistence with Wi-Fi networks. Test results show LTE-U can achieve higher capacity than Wi-Fi while maintaining Wi-Fi performance in dense deployments.
3GPP Standards for the Internet-of-ThingsEiko Seidel
Presenation by 3GPP RAN3 Chairman - Philippe Reininger - at the IoT Business & Technologies Congress (November 30, in Singapore). Main topics are eMTC, NB-IOT and EC-GSM-IoT as completed in 3GPP Release 13 and enhanced in Release 14
This document provides an overview of Low Power Wide Area Networks (LPWAN) technologies. It discusses the key characteristics of LPWAN such as operating at a long range of up to 10km using little battery power and transmitting small amounts of data. It summarizes the major LPWAN technologies including LoRaWAN, Sigfox, NB-IoT and LTE-CAT M1. It also outlines the growth in the number of LPWAN devices, networks and applications. Examples of common LPWAN uses cases like smart metering and asset tracking are also highlighted.
This document provides an overview of Narrow Band Internet of Things (NB IoT) technology. It begins with introductions to IoT and the key elements that make up IoT systems. It then describes NB IoT, including its objectives to enable low cost, long battery life connections for a large number of devices. The document outlines the NB IoT standards development and provides details on its deployment scenarios, operation modes, architecture and characteristics. It also summarizes the different layers of the NB IoT protocol stack, including the radio resource control layer.
LoRa is a long range wireless radio technology for low power wide area networks (LPWANs) used in IoT and M2M applications. It uses license-free sub-GHz frequency bands and spreads signals over a wide bandwidth for long-range transmissions of up to 5-15 km in rural areas and 2-5 km in urban areas using low power consumption from battery-powered devices. The LoRa Alliance oversees the LoRaWAN standard to enable interoperability.
Indoor Navigation - A Solution to Last Mile ProblemRanga Vangipuram
Indoor navigation provides location services and navigation for indoor environments like airports, hospitals, warehouses, and offices. It uses mapping technologies to convert floor plans into digital maps, navigation technologies to calculate shortest paths between locations, and positioning technologies like WiFi, Bluetooth, and QR codes to determine a user's indoor position. The technology stack includes layers for mapping, navigation, positioning, applications, and an interactive user interface. Indoor navigation helps users and staff navigate large indoor spaces and find amenities and points of interest.
The document discusses Internet of Things (IoT) solutions and development platforms. It defines IoT and describes the business benefits, including enhanced customer service, increased revenue, improved asset usage, and more data for analytics. The document outlines the key components of an IoT implementation architecture, including devices, connectivity protocols, data storage, security, and analytics services. It also discusses improving IoT through process re-engineering, productivity gains, and establishing business objectives.
Presentation on "Overview of Internet Technologies and
Web 2.0" on 2nd of Feb 2009 during STC on INTERNET (2nd of Feb.2009 to 06th of Feb 2009) at NATIONAL INSTITUTE OF TECHNICAL TEACHERS’ TRAINING AND RESEARCH CHANDIGARH
Technologies for the Internet of ThingsBjörn Ekelund
Internet of things is one of the pillars of Ericsson's Networked Society vision. Internet of things is becoming a reality here and now driven by a number of business and technology factors. This presentation discuss key technologies that will enable and drive the Internet of Things.
Ibm middleware point of view 060815 dark backgroundShane McCaul
The document discusses digital transformation and how organizations can break down barriers to digital transformation. It highlights how digital disruptors are using technologies like mobile apps, real-time insights, and digital innovation to transform their industries. It then discusses how an organization's technology needs to be flexible and future-proofed to either disrupt or be disrupted by digital transformation in their industry.
G.hn EoC is emerging as a cost-effective alternative to DOCSIS 3.1 for delivering gigabit internet speeds over existing coaxial cable infrastructure. It utilizes ITU-T G.hn Wave-2 standards and Marvell chipsets to provide up to 2Gbps speeds over coax, phone lines, or power lines using a single technology. The solution includes indoor and outdoor ONUs to connect homes to the fiber network, as well as single-port and four-port CPE devices for end users.
Este documento presenta un ejemplo de resolución de un problema de programación lineal mediante el método simplex. Se maximiza la función objetivo Z = 4x1 + 3x2 sujeto a tres restricciones. Se lleva el problema a forma estándar y se construye la tabla simplex inicial. Luego, a través de iteraciones donde se selecciona la razón mínima y se realizan las operaciones de pivote, se llega a la solución óptima.
HACKATHON 2016 CYBERJAYA . Participant from Universiti Malaysia Sabah in team of 3 peoples: Kok Khong Wei, Lee Ren Ting and Lim Fong Way developed an Smart Bus Prototype with working Android Smart Bus app test run in Cyberjaya. It works !
Developing for Hybrid Cloud with BluemixRoberto Pozzi
This document discusses two ways to integrate an IBM i program with a Bluemix application using REST services. The first way uses WebSphere Application Server Liberty Profile to expose a REST service that calls the IBM i program. The second way uses Cast Iron Live to expose an API that calls a REST service behind the firewall, which is then consumed by a Cloud Integration Service in Bluemix. Both options allow developers to integrate existing IBM i assets with new applications in Bluemix.
Sultan Muhammad Al-Fateh was born in 1432 in Edirne, Turkey and became the ruler of the Ottoman Empire at age 19, ruling for 30 years. He was known for conquering Constantinople in 1453, earning him the nickname "Al-Fateh," meaning "the conqueror." Sultan Muhammad Al-Fateh displayed many traits of an effective leader according to the trait approach to leadership, including charisma, self-confidence, bravery, communication skills, commitment to excellence, forward thinking, and knowledge of warfare from a young age. These innate characteristics helped him successfully lead his armies to capture Constantinople.
SMi Group's 5th annual Smart Water Systems 2016Dale Butler
This document provides information on the 5th annual Smart Water Systems conference taking place on April 25-26, 2016 in London. The conference will focus on investing in the benefits and overcoming challenges of smart water systems. Key sessions will address Thames Water's smart water efficiency project, smart water systems as a social necessity, domestic water metering in Ireland using automatic reading, and Southern Water's universal metering program. Featured speakers represent Thames Water, Irish Water, Southern Water, and other water companies. The conference will provide insights on customer engagement, data collection strategies, delivering benefits from smart metering, and utilizing big data analytics. A post-conference workshop on April 27th will focus on applying behavioral economics and randomized trials to energy
1. Bluemix is IBM's cloud platform that provides an open innovation platform to build, deploy, and manage applications anywhere through public, private, and on-premises options.
2. It delivers flexible compute options including containers and virtual machines and a catalog of over 100 services to extend applications.
3. Bluemix offers deployment options like public, dedicated, and local environments to meet enterprise security, compliance, and infrastructure needs while fostering innovation.
CuTech Talks- Art of Building IoT Products event held on 9th January 2016 at Cumulations Technologies. This PPT covers the topic "IoT Protocols" presented by Nagasai Panchakarla.
From Jisc's student experience experts group meeting in Birmingham on 21 April 2016.
https://www.jisc.ac.uk/events/student-experience-experts-group-meeting-20-apr-2016
The document discusses wireless sensor network challenges and various wireless communication standards. It introduces Zigbee as a new low power protocol for wireless sensor networks (WSN). Zigbee is based on the IEEE 802.15.4 standard and targets applications that require low data rates, long battery life, and secure networking. It provides features like mesh networking, an extended 64-bit addressing scheme and encryption for reliable and secure communication in WSNs.
IoT = device + cloud. how to architect an iot solution slideshareGuy Vinograd ☁
This document discusses architecting an IoT solution and addresses common dilemmas. It introduces Guy Vinograd as the CEO of Softimize, an IoT platform provider. Softimize's TBBT platform offers services like push notifications, access control, security, billing and analytics to help vendors focus on their core business rather than developing their own cloud infrastructure. The document then outlines three common IoT design dilemmas around human-sensor interactions, sensor placement and maintenance, and determining the best locations for an IoT gateway, data and logic processing, and message formats.
This document provides an overview of IBM Bluemix, a cloud platform for building, running, and managing applications. It discusses key Bluemix concepts like regions, spaces, and foundational elements. It also covers the various options available for developing applications on Bluemix, including using the command line interface, Eclipse plugin, manifest files, and environment variables. The document promotes Bluemix's capabilities for rapid application development and deployment through simplification, flexibility, and DevOps services.
This document describes an indoor navigation Android application that uses Wi-Fi fingerprinting for localization and a routing algorithm to navigate between nodes on a map. It discusses challenges with GPS indoors and explores localization techniques including Wi-Fi, Bluetooth, and sensors. The application utilizes a SQLite database of Wi-Fi fingerprints mapped to locations, calculates the user's position by comparing live readings to stored values, and determines displacement using accelerometer and gyroscope data. It draws the user's position on a map and calculates a path between nodes using numbering to navigate between points of interest selected on the interface.
Yury Birchenko, CTO at NWave, shared successful examples of LPWAN technologies and explained how to choose the right LPWAN at Digital Catapult's LPWAN London Meetup.
This document provides information about WAGO Kontakttechnik GmbH & Co. KG. It discusses that WAGO was founded in 1951 in Minden, Germany and is now the headquarters for the WAGO Group. It has over 5,000 employees working across 9 production facilities globally. WAGO offers automation solutions for building installation and automation, industrial electronics, and represents its products in over 110 countries.
The combination of new energy and IoT in smart metering applications are accelerating the development of China's traditional economic form, smart grid, smart watering, smart environmental protection, smart mining, and other emerging fields are in rapid development.
The public data show that the global demand for new energy has increased by 50% since the 1990s and is expected to further increase by 30% by 2040, IoT connectivity technologies are gradually being used more and more to handle energy management and provide improved solutions.
Soloten Energy Saver solution for office buildingsSoloten
The document describes an energy monitoring solution called Soloten Energy Saver that uses wireless LoRaWAN sensors and the everynet network to monitor buildings for energy losses. The solution involves installing wireless door, window, temperature and motion sensors that communicate via LoRaWAN to an everynet gateway. This data is then accessible through a cloud-based dashboard and mobile app to monitor for issues like open windows and doors. The solution promises fast setup without wiring, unlimited scalability, and cost savings through reduced energy bills. A trial package called a "Try-box" is available for €999 to test the solution.
The document describes an energy monitoring solution called Soloten Energy Saver that uses wireless LoRaWAN sensors and an everynet gateway to monitor buildings for energy losses. The solution allows users to quickly install wireless door, window and temperature sensors across multiple buildings to remotely monitor for energy issues like unclosed windows and doors. It provides real-time alerts and integrations with building management software. The document promotes a "Try Box" that allows customers to test the affordable and scalable solution.
Whitepaper - How to build a mutil-technology scalable IoT Connectivity Platform?Actility
In this paper, we investigate the challenges facing service providers and enterprises for deploying and monetizing LPWAN solution.
We show in this paper that the traditional M2M approach might not be cost-effective for the needs of LPWAN IoT deployments due to dramatically lower ARPU requirements of IoT compared to traditional M2M. We also examine both cellular IoT (NB-IoT or Cat-NB1, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. We show how operators extend existing M2M use cases and swap 2G using cellular IoT, and in addition tap into the new unlicensed IoT market space using LoRaWAN. Interestingly, LoRaWAN is a natural over-the-top play for cellular IoT operators, as cellular IoT is an ideal backhaul technology for unlicensed LPWAN concentrators.
Properly matching a connectivity solution to a use case is a complex multidimensional problem requiring analysis of several factors including battery lifetime, coverage, throughput, latency, total cost of ownership (TCO), amongst other factors. We discuss these factors and attempt to build a technology selection chart, and then build a business case for multi-technology IoT platform that leverages both LoRaWAN and Cellular IoT to serve the needs of all IoT use cases. We also provide insights on the service provider strategy for LPWAN deployment with examples from Tier-1 MNOs such as SK Telecom and Orange.
Finally, we conclude the paper with overview of ThingPark Wireless as a multi-technology platform that addresses the challenges for both LoRaWAN and Cellular IoT deployments.
Supported by an experienced technical team, Crouzet Automation is a pioneer in the simplification of programming. The brand offers the easiest-to-use and most adaptable alternative automation solution for specialized and demanding needs.
http://www.crouzet-automation.com
Follow us on LinkedIn: https://www.linkedin.com/company/crouzet-automation
Crouzet Automation is a brand of InnoVista Sensors™.
InnoVista Sensors™ : your trusted partner of choice to face industrial challenges of today and tomorrow.
InnoVista Sensors™ is a worldwide industrial specialist of sensors, controllers and actuators for automated systems.
Through its brands, Crouzet Aerospace, Crouzet Automation, Crouzet Control, Crouzet Motors, Crouzet Switches and Systron Donner Inertial, InnoVista Sensors™ offers a wide range of reliable, efficient and customizable components dedicated to the Aerospace & Defence, Transportation and Industrial market and segments.
Thanks to the recognized expertise of its teams and a strong innovation policy, InnoVista Sensors™ brings performance enhancing solutions to its customers worldwide.
www.innovistasensors.comCrouzet Automation is a brand of InnoVista Sensors™.
Orange IoT and LPWA Connectivity White Paper-EN-2018Orange Dev
(1) LoRaWAN and LTE-M are low-power wide-area (LPWA) network technologies that are well-suited for connecting IoT devices that require long range connectivity while minimizing power consumption. (2) LoRaWAN uses license-free spectrum for connectivity solutions that are low-power, low-cost, and provide wide-area coverage for non-critical applications. (3) LTE-M uses licensed cellular spectrum and provides more capabilities like higher speeds, support for mobility and voice, and global roaming, making it suitable for applications requiring real-time connectivity.
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.
The document provides information on Crouzet Automation's product selection guide. It introduces the Millenium 3 and em4 product lines as the easiest programmable modules to use for various automation applications. The Millenium 3 offers standard, customized, and application-specific solutions while the em4 provides remote connectivity options and highly accurate analog inputs. Both product lines can be programmed using the intuitive M3 Soft software.
Introducing a holistic view of how IoT applications are built.
Presentation delivered during the IPv6 Coordination Meeting organised by RIPE NCC in Beirut-Lebanon on November 5th 2015. It was updated for the RIPE NCC Levant Regional Meeting done on April 25th 2016 in Beirut.
ElifTech's first IoT digest. News about Internet of Thing hardware, software and industry in general.
Don't forget to subscribe not to miss next month IoT digest.
Low Power Wide Area Networks (LPWA) are a new type of network designed for the Internet of Things (IoT). LPWA networks use low bandwidth and power to connect billions of devices globally at a low cost per device. They are well-suited for high device density applications where devices only need to send small amounts of data occasionally. By 2025, LPWA networks like Sigfox and LoRaWAN are projected to represent 20-25% of the global IoT connectivity market. Sigfox is the first global LPWA network operator, using an "Ultra Narrow Band" technology that allows for massive network capacity and high energy efficiency of connected devices.
This document summarizes Alosys' smart metering and Internet of Things (IoT) system called "New Ariel". Key points:
- New Ariel is a versatile and cost-effective system for smart metering applications to manage complex infrastructure like smart cities and buildings.
- It is capable of acquiring data from specialized sensors and environments, analyzing the data, and providing useful information for advanced services to customers.
- The system allows for efficient maintenance management and easy multi-access interfaces.
- Alosys has experience applying New Ariel internationally for applications like street lighting control and infrastructure management.
This document summarizes Alosys' smart metering and Internet of Things (IoT) system called "New Ariel". Key points:
- New Ariel is a versatile and cost-effective system for smart metering applications to manage complex infrastructure like smart cities and buildings.
- It is capable of acquiring data from specialized sensors and environments, analyzing the data, and providing useful information for advanced services to customers.
- The system allows for efficient maintenance management and easy multi-access interfaces.
- Alosys has experience applying New Ariel internationally for applications like street lighting control and infrastructure management.
LPWA - Low power wide area, short for low power wide area technology, using lower power consumption to achieve long-distance wireless signal transmission.
Compared with the familiar low-power Bluetooth (BLE), Zigbee and Wifi technologies, LPWA has a much longer transmission distance, generally at the kilometre level, and its link budget (link budget) can reach 160dBm, while BLE and Zigbee are generally below 100dBm.
Compared with traditional cellular network technologies (2G, 3G), LPWA has lower power consumption, and battery-powered devices can last for several years. Based on these two distinctive features, LPWA can truly enable the Internet of Things (IoT) revolution.
LPWAN - Low power wide area network, i.e. a wireless connection network built with LPWA technology, LPWAN can be connected in various forms.
How Telecoms contribute to IoT landscape shapingAlicja Folga
This document outlines an agenda for discussing how telecom providers can shape the IoT landscape. The agenda includes examining current IoT and telecom connectivity capabilities, requirements for both licensed and unlicensed connectivity technologies like LTE-M, LoRa, and Sigfox, and how telecoms can position themselves as service providers or enablers. Benchmarking various short-range and long-range wireless technologies is also covered to understand which are best suited to meet technical and commercial IoT device needs.
This document discusses enabling open markets for services in the Web of Things by using open standards. It notes that most value will come from services, not just sensors, and that standards are key to breaking down product silos and allowing third parties to add value. The document outlines several technologies relevant to the Web of Things and Internet of Things, and proposes establishing a W3C Web of Things Interest Group to further standards efforts in areas like security, data models, and service composition.
This document compares and contrasts wireless broadband technologies Wi-Fi, WiMAX, and 3G. It provides an overview of each technology including Wi-Fi's use of unlicensed spectrum versus WiMAX and 3G's licensed spectrum. It also discusses factors like bandwidth, mobility, and architecture between the different standards. The document concludes that the technologies can coexist to complement each other based on requirements like distance and data rates.
Industrial remote monitoring by the mobile network. Supervise, monitor and control any device, anywhere, anytime, from fixed or mobile terminals through OCCOX technology and M2M CHANNEL protocol by DEMTECH.
Swisscom launched a new fibre network and gateway called the Internet-Box to take advantage of ultra-fast speeds. SoftAtHome provided the software platform for the Internet-Box, allowing innovative features and rapid upgrades. The Internet-Box offers speeds up to 1Gbps, advanced WiFi, parental controls, telephony, and access to personal content from any device.
Similar to Amiho - Bridging the Gap with LoRa (20)
Your One-Stop Shop for Python Success: Top 10 US Python Development Providersakankshawande
Simplify your search for a reliable Python development partner! This list presents the top 10 trusted US providers offering comprehensive Python development services, ensuring your project's success from conception to completion.
Skybuffer AI: Advanced Conversational and Generative AI Solution on SAP Busin...Tatiana Kojar
Skybuffer AI, built on the robust SAP Business Technology Platform (SAP BTP), is the latest and most advanced version of our AI development, reaffirming our commitment to delivering top-tier AI solutions. Skybuffer AI harnesses all the innovative capabilities of the SAP BTP in the AI domain, from Conversational AI to cutting-edge Generative AI and Retrieval-Augmented Generation (RAG). It also helps SAP customers safeguard their investments into SAP Conversational AI and ensure a seamless, one-click transition to SAP Business AI.
With Skybuffer AI, various AI models can be integrated into a single communication channel such as Microsoft Teams. This integration empowers business users with insights drawn from SAP backend systems, enterprise documents, and the expansive knowledge of Generative AI. And the best part of it is that it is all managed through our intuitive no-code Action Server interface, requiring no extensive coding knowledge and making the advanced AI accessible to more users.
Trusted Execution Environment for Decentralized Process MiningLucaBarbaro3
Presentation of the paper "Trusted Execution Environment for Decentralized Process Mining" given during the CAiSE 2024 Conference in Cyprus on June 7, 2024.
Dive into the realm of operating systems (OS) with Pravash Chandra Das, a seasoned Digital Forensic Analyst, as your guide. 🚀 This comprehensive presentation illuminates the core concepts, types, and evolution of OS, essential for understanding modern computing landscapes.
Beginning with the foundational definition, Das clarifies the pivotal role of OS as system software orchestrating hardware resources, software applications, and user interactions. Through succinct descriptions, he delineates the diverse types of OS, from single-user, single-task environments like early MS-DOS iterations, to multi-user, multi-tasking systems exemplified by modern Linux distributions.
Crucial components like the kernel and shell are dissected, highlighting their indispensable functions in resource management and user interface interaction. Das elucidates how the kernel acts as the central nervous system, orchestrating process scheduling, memory allocation, and device management. Meanwhile, the shell serves as the gateway for user commands, bridging the gap between human input and machine execution. 💻
The narrative then shifts to a captivating exploration of prominent desktop OSs, Windows, macOS, and Linux. Windows, with its globally ubiquitous presence and user-friendly interface, emerges as a cornerstone in personal computing history. macOS, lauded for its sleek design and seamless integration with Apple's ecosystem, stands as a beacon of stability and creativity. Linux, an open-source marvel, offers unparalleled flexibility and security, revolutionizing the computing landscape. 🖥️
Moving to the realm of mobile devices, Das unravels the dominance of Android and iOS. Android's open-source ethos fosters a vibrant ecosystem of customization and innovation, while iOS boasts a seamless user experience and robust security infrastructure. Meanwhile, discontinued platforms like Symbian and Palm OS evoke nostalgia for their pioneering roles in the smartphone revolution.
The journey concludes with a reflection on the ever-evolving landscape of OS, underscored by the emergence of real-time operating systems (RTOS) and the persistent quest for innovation and efficiency. As technology continues to shape our world, understanding the foundations and evolution of operating systems remains paramount. Join Pravash Chandra Das on this illuminating journey through the heart of computing. 🌟
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
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 .
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
Fueling AI with Great Data with Airbyte WebinarZilliz
This talk will focus on how to collect data from a variety of sources, leveraging this data for RAG and other GenAI use cases, and finally charting your course to productionalization.
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.
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
leewayhertz.com-AI in predictive maintenance Use cases technologies benefits ...alexjohnson7307
Predictive maintenance is a proactive approach that anticipates equipment failures before they happen. At the forefront of this innovative strategy is Artificial Intelligence (AI), which brings unprecedented precision and efficiency. AI in predictive maintenance is transforming industries by reducing downtime, minimizing costs, and enhancing productivity.
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!
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.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
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.