SMART METERING e SMART CITY cosa è oggi la telelettura in ambito Metering per...Servizi a rete
This document discusses smart metering and wireless connectivity solutions from Diehl Metering. It provides an overview of Diehl Metering's water and heat metering solutions, the Diehl Group company profile, and Diehl Metering's figures and capabilities. It also outlines the increasing number of wireless connectivity standards and provides a landscape of wireless connectivity technologies comparing distance, energy consumption and other factors.
This document discusses several environmental monitoring solutions using wireless sensor networks that can operate for up to 20 years. These solutions allow for real-time monitoring and data collection from sensors within 10 meters of shore or up to 35 meters out at sea using techniques like sensor networks deployed from boats or buoys, extended networks using autonomous underwater vehicles, and information recovery using remotely operated vehicles or unmanned aerial vehicles. The sensor networks provide low-cost, big data collection with battery lives up to 20 years.
The document discusses the potential benefits and use cases of 5G technology across multiple industries. It describes how 5G could enable more efficient precision agriculture through sensors, autonomous vehicles, and smart irrigation. It also discusses how 5G could connect the energy grid to allow more efficient production, distribution and consumption of energy through smart meters and distributed generation. Finally, it summarizes that a study projects 5G contributing $13.2 trillion to the global economy by 2035 by powering new industries and expanding the mobile ecosystem.
Managing the Robotics Organization with Robotics – IoTRising Media, Inc.
This document discusses using Data Distribution Service (DDS) middleware to address the complex communication challenges of connecting robotic systems and the Internet of Things. DDS provides a standardized communication infrastructure that enables reliable, scalable, and secure data distribution across heterogeneous systems. Examples are given of DDS being used for distributed robotics at NASA, medical device integration, smart grid systems, and more. DDS simplifies development, reduces costs, and improves flexibility, maintainability and reuse for connected systems involving robots, sensors and other devices.
In China, the five year plan points out that developing smart eco-cities – maximizing the conservation of energy, water, land and materials, reducing pollution, optimizing the transportation, protecting the environment, and improving building comfort, health and safety – is a critical stage for accelerating industrialization, urbanization and rural development providing great opportunities. It is estimated that between 2010 and 2025, around 250 million citizens will move from rural areas into cities. By 2030, 1 billion people out of 1.4 billion in China will live in cities, from 3 to 13 (smart eco-) megalopolises built.
SMART METERING e SMART CITY cosa è oggi la telelettura in ambito Metering per...Servizi a rete
This document discusses smart metering and wireless connectivity solutions from Diehl Metering. It provides an overview of Diehl Metering's water and heat metering solutions, the Diehl Group company profile, and Diehl Metering's figures and capabilities. It also outlines the increasing number of wireless connectivity standards and provides a landscape of wireless connectivity technologies comparing distance, energy consumption and other factors.
This document discusses several environmental monitoring solutions using wireless sensor networks that can operate for up to 20 years. These solutions allow for real-time monitoring and data collection from sensors within 10 meters of shore or up to 35 meters out at sea using techniques like sensor networks deployed from boats or buoys, extended networks using autonomous underwater vehicles, and information recovery using remotely operated vehicles or unmanned aerial vehicles. The sensor networks provide low-cost, big data collection with battery lives up to 20 years.
The document discusses the potential benefits and use cases of 5G technology across multiple industries. It describes how 5G could enable more efficient precision agriculture through sensors, autonomous vehicles, and smart irrigation. It also discusses how 5G could connect the energy grid to allow more efficient production, distribution and consumption of energy through smart meters and distributed generation. Finally, it summarizes that a study projects 5G contributing $13.2 trillion to the global economy by 2035 by powering new industries and expanding the mobile ecosystem.
Managing the Robotics Organization with Robotics – IoTRising Media, Inc.
This document discusses using Data Distribution Service (DDS) middleware to address the complex communication challenges of connecting robotic systems and the Internet of Things. DDS provides a standardized communication infrastructure that enables reliable, scalable, and secure data distribution across heterogeneous systems. Examples are given of DDS being used for distributed robotics at NASA, medical device integration, smart grid systems, and more. DDS simplifies development, reduces costs, and improves flexibility, maintainability and reuse for connected systems involving robots, sensors and other devices.
In China, the five year plan points out that developing smart eco-cities – maximizing the conservation of energy, water, land and materials, reducing pollution, optimizing the transportation, protecting the environment, and improving building comfort, health and safety – is a critical stage for accelerating industrialization, urbanization and rural development providing great opportunities. It is estimated that between 2010 and 2025, around 250 million citizens will move from rural areas into cities. By 2030, 1 billion people out of 1.4 billion in China will live in cities, from 3 to 13 (smart eco-) megalopolises built.
Subsea control down under subsea internet of thingsJohn Gibbs
Subsea Internet of Things Technology enables a network of smart, wireless sensors and devices to be configured to provide performance, condition and diagnostic information
Our mission is to radically change the way people, products and property are connected by developing game-changing technology and applying it with smarter thinking. We believe in the power and potential of renewable energy.
Subsea control down under subsea internet of thingsBrendan Hyland
This document discusses the subsea Internet of Things (IoT) and WFS Technologies' role in developing it. The subsea IoT uses a hybrid network of smart wireless sensors and devices to provide asset integrity and flow assurance information from offshore oil and gas infrastructure. It allows remote monitoring of features like pipe wall thickness, cracks, vibration and flow rates. This can reduce inspection and monitoring costs by extending time periods between interventions and improving data quality. WFS has developed Seatooth, an ultra-low power wireless radio technology that can transmit data through water and the water-air boundary from subsea sensors to offshore facilities. This enables applications like pipeline corrosion monitoring using pipeline inspection gauges and production optimization by retrofitting wireless flow meter
The document describes a solar-powered security light system that uses LED lights, wireless communication, a photocell, and micro energy storage system. It can be used to build smart city infrastructure with public WiFi, CCTV cameras, and lighting control. The system uses solar panels or small windmills to charge batteries and power the lights, cameras, and other nodes. It monitors weather, temperature, and charge levels and can provide security monitoring and control through an integrated city operations center.
Streetlight poles and luminaires are ideal hosts for connecting sensors. They provide fine-grained information about the urban environment, and are used to provide adaptive lighting but also feed into many municipal systems and departments. Examples include minute-by-minute traffic analytics or street-by-street air quality monitoring.
But if street lighting is to become the catalyst for “smart city” applications, lighting professionals need to understand when to harness sensor data, and when to consider application data or predictive “big data”. The world is changing and we need to take a wider view. Keith will focus on deployed use cases to help to make sense of the practical and economic implications of these important developments.
Talk by Keith Henry AMILP, Telensa
At Schneider Electric, in the IT Division, our core business has always been focused on delivering the highest level of availability to critical technologies, systems and processes. We’ve done this through our award winning, industry-leading and highest quality products and solutions, including UPS, Cooling, Rack Systems, DCIM and Services.
In this new digital era, we see a world that is always-on.
Always on to meet the needs of the highest notion of “access” to goods and services
Always on to be the solid, reliable foundation of digital transformation for businesses
Our mission is: To empower the digital transformation of our customers by ensuring their critical network, systems and processes are highly available and resilient.
Track 3 session 3 - st dev con 2016 - flex - modern product developmert for...ST_World
The document discusses the rise of connected devices and the opportunities for innovation across sectors that this connectivity enables. It notes that by 2020 there will be 50 billion connected devices creating over $7 trillion in potential economic value. The document outlines how different industries could see 10-20% cost reductions through innovations in areas like chronic disease management, operating costs, vehicle damage prevention, and crop yields. It emphasizes that the opportunity for innovation is in every sector and that a shared understanding and viable prototypes are key to driving innovation through a flexible innovation lab model.
SmartCiti Solutions provides smart pole technology that collects data using sensors and cameras for applications like traffic monitoring and public WiFi. Their poles can be customized to match urban environments. The poles conceal antennas, cameras, and other equipment and use artificial intelligence for tasks like vehicle detection and traffic analytics. Their solution integrates data collection, optimization, and presentation capabilities to help cities make decisions based on pole-gathered information.
Where will the next 80% improvement in data center performance come from?Schneider Electric
Rick Puskar, Head of Marketing for Schneider Electric's IT Division presents at the Gartner Symposium in Barcelona November 8th, 2017. In this presentation Rick discusses where the next 80% improvement in data center performance will come from with a focus on the speed, availability and reliability of data. Learn how a cloud-based data center infrastructure management as a service architecture like Schneider Electric's EcoStruxure IT can drive such aggressive goals around data center performance.
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.
2015Mar25 SmartCityExpo Montreal Quebec CanadaCJ Boguszewski
This document summarizes a presentation given by CJ Boguszewski of Silver Spring Networks on smart cities and the Internet of Things. It discusses how Silver Spring Networks has networked over 23 million devices globally and provides a platform for critical infrastructure. Case studies are presented of smart city projects in Miami, Copenhagen, Glasgow, and Paris that have reduced costs and improved services through LED lighting networks and sensors. The presentation argues that a standards-based, secure network is needed to connect the billions of devices that will be part of the IoT and make cities smarter.
The document discusses how 5G networks will enable a wide range of new applications and use cases across multiple industries such as precision agriculture, smart manufacturing, connected healthcare, and smart cities by intelligently connecting people and devices. It provides examples of how 5G can improve efficiencies in areas like logistics, transportation, energy, and more. The study estimates that 5G will generate over $13 trillion in global economic value by 2035 by powering the digital transformation of industries.
A neutral host plan allows municipalities to directly generate revenue from 5G deployment by telcos and other companies in the region. It involves the city establishing and requiring the use of specific municipal infrastructure for 5G equipment installation, installing this infrastructure, and then charging carriers that use it. A complete plan is needed to install, maintain, and recognize revenue from the infrastructure. The next steps would be a presentation and workshop with stakeholders to determine if this is a viable solution for the city's 5G plan.
DefCon 2011 - Vulnerabilities in Wireless Water MetersMichael Smith
This document provides an overview of vulnerabilities in wireless water meter networks. It begins with background on the author and their experience in water infrastructure and cybersecurity. The main points covered include:
- Wireless water meters allow for automated reading but introduce cybersecurity risks
- Meters function as electronic cash registers, and accurate readings are important for utility revenue and operations
- Potential issues include theft of water service, revenue loss from inaccurate meters, and lack of proper management of meter infrastructure and billing systems
- The talk aims to raise awareness of security for water infrastructure, which is critical but receives less attention than other utilities like electricity
CityHub is a multi-functional green energy charging station that provides economic, social and environmental benefits for future sustainable cities. Development of new infrastructure is a prerequisite for implementation of smart city initiatives. CityHub offers illumination of advertising panels through utilization of renewable energy that offsets electricity bills and generates faster ROI.
The document discusses Trilliant, an energy innovation company based in Silicon Valley. It describes Trilliant's global operations and technology platform for utilities. It then introduces Trilliant's Smart Grid Maturity Model, which provides a framework to assess utilities' smart grid capabilities. Finally, it discusses challenges utilities face in pursuing growth and managing disruptive technology across the value chain.
This document proposes a smart garbage monitoring system using Internet of Things (IoT) technology. The system uses an ultrasonic sensor, ESP8266 WiFi module, and Arduino microcontroller to monitor garbage levels in trash cans and send real-time data to ThingSpeak. This allows for optimized garbage collection routes to reduce costs, fuel consumption, and improve cleanliness. The system costs approximately 905 Rs to build and offers benefits like dynamic routing, cost reduction, reduced CO2 emissions, and improved cleanliness.
Sigfox is a low power, wide area network designed for IoT connectivity. It provides reliable data transmission using ultra narrow band technology with bi-directional communication capabilities. Sigfox offers various hardware solutions including modules, system on chips, and certified reference designs to allow devices to connect to its global 0G network at a very low cost. This makes it well suited for applications involving asset tracking, infrastructure monitoring, predictive maintenance, and other use cases requiring low bandwidth data collection from distributed assets.
CD December 2015 Le Geosystems Cable Detection presentationComit Projects Ltd
Presentation by Leica Geosystems about innovation and developments in the field of services detection. Presented at the COMIT community day in High Wycombe 5/12/2015
The document describes the Porto Living Lab project in Porto, Portugal which involves three sensing infrastructures: BusNet, HarbourNet, and UrbanSense. UrbanSense is an environmental sensor platform that collects data from over 500 sensors across the city to understand phenomena and their impacts. It involves sensor units that collect data and send it via various wireless networks to a cloud database. The sensors measure air quality, noise, weather and other environmental factors.
Reducing costs through subsea wireless automation June 2017John Gibbs
This presentation explores the latest subsea wireless products and automation technologies including hybrid wireless, Subsea Internet of Things and Subsea Cloud Computing and their use to increase production, reduce operating costs, reduce asset integrity management costs and extend asset life.
Managing Big Data Subsea - Subsea Internet of ThingsJohn Gibbs
WFS Technologies (www.wfs-tech.com) has developed the building blocks for Subsea Internet of Things (SIoT) enabling Smart Devices to extend wireless IoT networks through water and through ground, providing a low-cost alternative to cables, connectors and buoys. The industries served include Oil and Gas, Marine Equipment, Environmental and Defense. Key customer benefits include improved asset productivity, asset integrity management, safety and reducing costs for automation in the subsea environment.
The Internet of Things (IoT) wave is providing direct integration of the physical world into the digital world on a global scale. This is creating a disruptive step-change in the way mankind is organized, from work practices and leisure activities through to how industry is run. At the same time, we face many challenges relating to our environment and it is accepted that we cannot continue using the planet’s resources in the way we have been doing since the previous industrial revolution.
While the IoT revolution is impressive, it has yet to consider 70% of the world’s surface – the ocean. New technologies are required to bring IT infrastructure to the oceans and that’s where the largest opportunities are for both industry and the environmental challenges we face.
Subsea control down under subsea internet of thingsJohn Gibbs
Subsea Internet of Things Technology enables a network of smart, wireless sensors and devices to be configured to provide performance, condition and diagnostic information
Our mission is to radically change the way people, products and property are connected by developing game-changing technology and applying it with smarter thinking. We believe in the power and potential of renewable energy.
Subsea control down under subsea internet of thingsBrendan Hyland
This document discusses the subsea Internet of Things (IoT) and WFS Technologies' role in developing it. The subsea IoT uses a hybrid network of smart wireless sensors and devices to provide asset integrity and flow assurance information from offshore oil and gas infrastructure. It allows remote monitoring of features like pipe wall thickness, cracks, vibration and flow rates. This can reduce inspection and monitoring costs by extending time periods between interventions and improving data quality. WFS has developed Seatooth, an ultra-low power wireless radio technology that can transmit data through water and the water-air boundary from subsea sensors to offshore facilities. This enables applications like pipeline corrosion monitoring using pipeline inspection gauges and production optimization by retrofitting wireless flow meter
The document describes a solar-powered security light system that uses LED lights, wireless communication, a photocell, and micro energy storage system. It can be used to build smart city infrastructure with public WiFi, CCTV cameras, and lighting control. The system uses solar panels or small windmills to charge batteries and power the lights, cameras, and other nodes. It monitors weather, temperature, and charge levels and can provide security monitoring and control through an integrated city operations center.
Streetlight poles and luminaires are ideal hosts for connecting sensors. They provide fine-grained information about the urban environment, and are used to provide adaptive lighting but also feed into many municipal systems and departments. Examples include minute-by-minute traffic analytics or street-by-street air quality monitoring.
But if street lighting is to become the catalyst for “smart city” applications, lighting professionals need to understand when to harness sensor data, and when to consider application data or predictive “big data”. The world is changing and we need to take a wider view. Keith will focus on deployed use cases to help to make sense of the practical and economic implications of these important developments.
Talk by Keith Henry AMILP, Telensa
At Schneider Electric, in the IT Division, our core business has always been focused on delivering the highest level of availability to critical technologies, systems and processes. We’ve done this through our award winning, industry-leading and highest quality products and solutions, including UPS, Cooling, Rack Systems, DCIM and Services.
In this new digital era, we see a world that is always-on.
Always on to meet the needs of the highest notion of “access” to goods and services
Always on to be the solid, reliable foundation of digital transformation for businesses
Our mission is: To empower the digital transformation of our customers by ensuring their critical network, systems and processes are highly available and resilient.
Track 3 session 3 - st dev con 2016 - flex - modern product developmert for...ST_World
The document discusses the rise of connected devices and the opportunities for innovation across sectors that this connectivity enables. It notes that by 2020 there will be 50 billion connected devices creating over $7 trillion in potential economic value. The document outlines how different industries could see 10-20% cost reductions through innovations in areas like chronic disease management, operating costs, vehicle damage prevention, and crop yields. It emphasizes that the opportunity for innovation is in every sector and that a shared understanding and viable prototypes are key to driving innovation through a flexible innovation lab model.
SmartCiti Solutions provides smart pole technology that collects data using sensors and cameras for applications like traffic monitoring and public WiFi. Their poles can be customized to match urban environments. The poles conceal antennas, cameras, and other equipment and use artificial intelligence for tasks like vehicle detection and traffic analytics. Their solution integrates data collection, optimization, and presentation capabilities to help cities make decisions based on pole-gathered information.
Where will the next 80% improvement in data center performance come from?Schneider Electric
Rick Puskar, Head of Marketing for Schneider Electric's IT Division presents at the Gartner Symposium in Barcelona November 8th, 2017. In this presentation Rick discusses where the next 80% improvement in data center performance will come from with a focus on the speed, availability and reliability of data. Learn how a cloud-based data center infrastructure management as a service architecture like Schneider Electric's EcoStruxure IT can drive such aggressive goals around data center performance.
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.
2015Mar25 SmartCityExpo Montreal Quebec CanadaCJ Boguszewski
This document summarizes a presentation given by CJ Boguszewski of Silver Spring Networks on smart cities and the Internet of Things. It discusses how Silver Spring Networks has networked over 23 million devices globally and provides a platform for critical infrastructure. Case studies are presented of smart city projects in Miami, Copenhagen, Glasgow, and Paris that have reduced costs and improved services through LED lighting networks and sensors. The presentation argues that a standards-based, secure network is needed to connect the billions of devices that will be part of the IoT and make cities smarter.
The document discusses how 5G networks will enable a wide range of new applications and use cases across multiple industries such as precision agriculture, smart manufacturing, connected healthcare, and smart cities by intelligently connecting people and devices. It provides examples of how 5G can improve efficiencies in areas like logistics, transportation, energy, and more. The study estimates that 5G will generate over $13 trillion in global economic value by 2035 by powering the digital transformation of industries.
A neutral host plan allows municipalities to directly generate revenue from 5G deployment by telcos and other companies in the region. It involves the city establishing and requiring the use of specific municipal infrastructure for 5G equipment installation, installing this infrastructure, and then charging carriers that use it. A complete plan is needed to install, maintain, and recognize revenue from the infrastructure. The next steps would be a presentation and workshop with stakeholders to determine if this is a viable solution for the city's 5G plan.
DefCon 2011 - Vulnerabilities in Wireless Water MetersMichael Smith
This document provides an overview of vulnerabilities in wireless water meter networks. It begins with background on the author and their experience in water infrastructure and cybersecurity. The main points covered include:
- Wireless water meters allow for automated reading but introduce cybersecurity risks
- Meters function as electronic cash registers, and accurate readings are important for utility revenue and operations
- Potential issues include theft of water service, revenue loss from inaccurate meters, and lack of proper management of meter infrastructure and billing systems
- The talk aims to raise awareness of security for water infrastructure, which is critical but receives less attention than other utilities like electricity
CityHub is a multi-functional green energy charging station that provides economic, social and environmental benefits for future sustainable cities. Development of new infrastructure is a prerequisite for implementation of smart city initiatives. CityHub offers illumination of advertising panels through utilization of renewable energy that offsets electricity bills and generates faster ROI.
The document discusses Trilliant, an energy innovation company based in Silicon Valley. It describes Trilliant's global operations and technology platform for utilities. It then introduces Trilliant's Smart Grid Maturity Model, which provides a framework to assess utilities' smart grid capabilities. Finally, it discusses challenges utilities face in pursuing growth and managing disruptive technology across the value chain.
This document proposes a smart garbage monitoring system using Internet of Things (IoT) technology. The system uses an ultrasonic sensor, ESP8266 WiFi module, and Arduino microcontroller to monitor garbage levels in trash cans and send real-time data to ThingSpeak. This allows for optimized garbage collection routes to reduce costs, fuel consumption, and improve cleanliness. The system costs approximately 905 Rs to build and offers benefits like dynamic routing, cost reduction, reduced CO2 emissions, and improved cleanliness.
Sigfox is a low power, wide area network designed for IoT connectivity. It provides reliable data transmission using ultra narrow band technology with bi-directional communication capabilities. Sigfox offers various hardware solutions including modules, system on chips, and certified reference designs to allow devices to connect to its global 0G network at a very low cost. This makes it well suited for applications involving asset tracking, infrastructure monitoring, predictive maintenance, and other use cases requiring low bandwidth data collection from distributed assets.
CD December 2015 Le Geosystems Cable Detection presentationComit Projects Ltd
Presentation by Leica Geosystems about innovation and developments in the field of services detection. Presented at the COMIT community day in High Wycombe 5/12/2015
The document describes the Porto Living Lab project in Porto, Portugal which involves three sensing infrastructures: BusNet, HarbourNet, and UrbanSense. UrbanSense is an environmental sensor platform that collects data from over 500 sensors across the city to understand phenomena and their impacts. It involves sensor units that collect data and send it via various wireless networks to a cloud database. The sensors measure air quality, noise, weather and other environmental factors.
Reducing costs through subsea wireless automation June 2017John Gibbs
This presentation explores the latest subsea wireless products and automation technologies including hybrid wireless, Subsea Internet of Things and Subsea Cloud Computing and their use to increase production, reduce operating costs, reduce asset integrity management costs and extend asset life.
Managing Big Data Subsea - Subsea Internet of ThingsJohn Gibbs
WFS Technologies (www.wfs-tech.com) has developed the building blocks for Subsea Internet of Things (SIoT) enabling Smart Devices to extend wireless IoT networks through water and through ground, providing a low-cost alternative to cables, connectors and buoys. The industries served include Oil and Gas, Marine Equipment, Environmental and Defense. Key customer benefits include improved asset productivity, asset integrity management, safety and reducing costs for automation in the subsea environment.
The Internet of Things (IoT) wave is providing direct integration of the physical world into the digital world on a global scale. This is creating a disruptive step-change in the way mankind is organized, from work practices and leisure activities through to how industry is run. At the same time, we face many challenges relating to our environment and it is accepted that we cannot continue using the planet’s resources in the way we have been doing since the previous industrial revolution.
While the IoT revolution is impressive, it has yet to consider 70% of the world’s surface – the ocean. New technologies are required to bring IT infrastructure to the oceans and that’s where the largest opportunities are for both industry and the environmental challenges we face.
This document discusses WFS Technologies' subsea wireless instrumentation and control solutions that can drive down costs. It highlights several technologies such as battery life that has increased from 6 months to 5-15 years, and distributed control that provides real-time data and information. Business cases are presented for retrofitting temperature sensors, water injection monitoring and control, and slug detection that could save over 70% in costs. Additional solutions discussed include wax monitoring, riserless intervention monitoring, platform NDT monitoring, and pipeline corrosion monitoring using wireless technologies.
IoT Harbour solutions & smart ports by Vertical M2M with CommonSense IoT Plat...Robert Vivanco Salcedo
This document discusses IoT solutions from Vertical M2M for port optimization. It describes Vertical M2M's CommonSense IoT platform and ecosystem, then outlines several potential use cases for ports including logistic optimization through vessel tracking, asset maintenance through predictive monitoring, energy efficiency through metering, and environmental monitoring of air and water quality. Implementing these IoT solutions through Vertical M2M's turnkey products could help ports address challenges around sustainability across logistic operations, asset upkeep, energy use, and environmental impact.
Seatooth is a radio frequency technology that enables wireless subsea communications over short to medium ranges without being affected by water conditions. It can transmit through water, air, and steel barriers. Seatooth devices have exceptionally long battery lives of up to 30 years and have applications in subsea monitoring, automation, and defense including covert smart sensor networks, long range control of subsea assets, and secure communications between divers, autonomous underwater vehicles, and sensors.
This document provides an overview of RTX, a Danish company that specializes in wireless technologies and IoT product integration. The agenda includes an introduction to RTX, discussions on product design and wireless technologies for IoT, and examples of IoT projects. RTX has expertise in areas like Bluetooth, DECT, Wi-Fi, LoRa and LTE for IoT. They provide full-service solutions including hardware, software, certification and supply chain management to integrate wireless technologies into IoT products and systems.
SMART SEWER NETWORK MONITORING USING IOT AND AIiQHub
1) SpaceAge Labs is a climate tech startup that uses IoT and AI to improve the efficiency and compliance of remote water and wastewater assets through digitalization.
2) The company's remoteEye and hydroEye AI platforms provide real-time monitoring of assets like sewers through wireless sensors to detect issues like blockages or discharges and provide predictive insights.
3) Case studies showed the technology detected over 10 sewer blockages in 12 months for a customer and helped another win a safety award by monitoring water quality and illegal discharges.
CONTEC is an IoT solutions provider established in 1975 in Osaka, Japan. It has 594 employees and global locations in Japan, USA, China, Taiwan, Singapore, Korea, and Europe. CONTEC offers a complete range of IoT products and solutions, including sensors, industrial PCs, networking solutions, and predictive maintenance systems. It provides these solutions through its open IoT platform called CONPROSYS, which allows integration of different third party products and protocols in a plug-and-play manner for real-time monitoring and control from a single dashboard. CONTEC's solutions are used across various industries like building management, renewable energy, manufacturing, and more.
[Feb 2020] Cours IoT - CentraleSupelec - Master SIONicolas Lesconnec
This document provides an overview of Internet of Things (IoT) and Sigfox's role in IoT connectivity. It introduces Sigfox, describing it as the world's largest 0G network for connecting IoT devices. It outlines key aspects of Sigfox technology, including its ultra-narrowband radio protocol, global network coverage, security features, and integration with cloud platforms. Use cases for supply chain tracking are presented. The document concludes with a discussion of building IoT products and deploying sensors using Sigfox.
The document provides an overview of edge computing case studies presented by Richard Kang. It discusses Richard's professional experience and the architecture of IoT applications. It then examines the role of edge computing and several edge computing case studies in industries like automobiles, agriculture, manufacturing, smart homes and smart cities. It also compares different wireless communication technologies and low-power wide area network standards. In the end, it provides Richard's contact details and links to additional resources.
The document is a presentation by Richard Kang on edge computing case studies. It discusses Richard's professional experience, provides an overview of IoT architecture including cloud, communication, and edge layers. It then examines the role of edge computing and provides examples of edge computing applications in various industries such as automobiles, agriculture, manufacturing, smart homes and cities. It also compares various low-power wide-area network technologies.
Xceltra is a specialist supplier of Telecommunications solutions established from United Arab Emirates and building on 15 years of experience in the Telecommunications industry.
Xceltra is the unique solution provider of Robust Communications into the MENA region; founded from the UAE with extensive experience in designing and offering Industrial Grade Networking solutions for Harsh Environments.
Xceltra is your trusted partner for all your Telecom needs with focus on specific Technology verticals like Industrial Data Communications.
Industrial control systems like SCADA are critical to national infrastructure but pose security challenges. They control crucial systems like pipelines and electrical utilities. While initially proprietary, SCADA systems now use open standards and IT components, making them vulnerable to cyber attacks which could have catastrophic impacts. A defense-in-depth strategy is needed, combining network segmentation, firewalls, log collection, and host and network intrusion prevention/detection to secure these vital systems.
This document contains a presentation by Richard Kang on edge computing case studies. It discusses Richard's professional experience, provides an overview of IoT architecture with cloud, communication, and edge layers. It then examines the role of edge computing and provides examples of edge computing applications in various industries like automobiles, agriculture, manufacturing, smart homes and cities. It also compares various wireless communication technologies and LPWAN standards.
The document discusses creating the world's first open programmable city by building a research network in Bristol, UK integrating optical, wireless, IoT, and computing technologies. It will provide an experimental platform and utility called "City Experimentation as a Service". The network will support digital innovation and include an SDN-enabled optical network, wireless network, IoT sensors, and cloud infrastructure. It aims to be technology agnostic and provide network slicing to share resources among users through network virtualization. This will create an open testbed for diverse infrastructure, service, and application requirements.
Wireless future actility ifma_realty 19-05-15Muriel Walter
DEBATNAMIDDAG IFMA ''Intelligente gebouwen'' - 19 mei 2015 - Realty T&T
Of we er nu werken of leven, we willen ons prettig en comfortabel in een ruimte voelen. In bedrijfspanden spelen flexibiliteit en rendabiliteit bovendien een uiterst belangrijke rol. Hoe flexibeler de gebouwentechniek op nieuwe eisen kan reageren en zich aan nieuwe technische ontwikkelingen kan aanpassen, des te eerder zal deze techniek renderen. Bovendien is met het oog op het toenemende milieubewustzijn en de stijgende energiekosten een gebouwmanagement vereist dat intelligente oplossingen voor efficiënt energieverbruik biedt.
IFMA gaat op deze debatnamiddag tijdens de Realty beurs op T&T dieper in op dit thema en de impact van deze evolutie op de activiteiten van de Facility Manager en Real Estate professional.
Similar to Noia Conference Presentation 2018 - Extending Internet of Things (IoT) to subsea operations (20)
CAKE: Sharing Slices of Confidential Data on BlockchainClaudio Di Ciccio
Presented at the CAiSE 2024 Forum, Intelligent Information Systems, June 6th, Limassol, Cyprus.
Synopsis: Cooperative information systems typically involve various entities in a collaborative process within a distributed environment. Blockchain technology offers a mechanism for automating such processes, even when only partial trust exists among participants. The data stored on the blockchain is replicated across all nodes in the network, ensuring accessibility to all participants. While this aspect facilitates traceability, integrity, and persistence, it poses challenges for adopting public blockchains in enterprise settings due to confidentiality issues. In this paper, we present a software tool named Control Access via Key Encryption (CAKE), designed to ensure data confidentiality in scenarios involving public blockchains. After outlining its core components and functionalities, we showcase the application of CAKE in the context of a real-world cyber-security project within the logistics domain.
Paper: https://doi.org/10.1007/978-3-031-61000-4_16
How to Get CNIC Information System with Paksim Ga.pptxdanishmna97
Pakdata Cf is a groundbreaking system designed to streamline and facilitate access to CNIC information. This innovative platform leverages advanced technology to provide users with efficient and secure access to their CNIC details.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
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.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
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Noia Conference Presentation 2018 - Extending Internet of Things (IoT) to subsea operations
1. Smart Waters – Smart Cities
Extending Internet of Things to Subsea Operat
ExtremeEdge: Subsea IoT and Cloud Computing Solutions
June 2018
WFS Technologies
Brendan Hyland, Founder & Chairman
Brendan@wfs-tech.com
+44 78 010 63450
2. Smart Waters – Smart Cities
• Technical challenge:
– Extending Big Data through water
• Key Advances
• ExtremeEdge IoT and Cloud
Computing
• Products and solutions
• Applications
• Summary and conclusions
Agenda
Seatooth Video – Total, Laggan Tormore, 800m
3. Smart Waters – Smart Cities
Technical Challenge
Big Data is Key to Reducing Costs
• Why are offshore O&G costs so high?
– High cost of intervention ?
or
– Low levels of automation ?
Visual Inspection paradigm
Over-design
Excess conservatism
Low extraction efficiency
• How Big Data drives down Costs
– Increase production efficiency
– Reduce inspection costs
– Extend asset life
– Lower field extension costs
– Lower green field CAPEX/OPEX
– Reduce risk
Collapse cost and latency of information
Source: WSJ, Apr 16 http://graphics.wsj.com/oil-barrel-breakdown/
Capital Costs
Production Costs
High Offshore Oil & Gas Costs
4. Smart Waters – Smart Cities
Technical Challenge
- Extending Big Data to the ExtremeEdge
• Big Data is disrupting society improved productivity, safety & flexibility, reduced costs
– Underpinned by collapse in unit cost of data
– Low cost wireless technology is the enabler of IoT and Cloud Computing: Bluetooth, Wi-Fi, 3/4/5G,
NFC….
• Conventional wireless stops at the water/air and ground/air boundaries
• Challenge: Extend Big Data to underwater and underground environments
Extending Big Data to the ExtremeEdge Wireless: the Enabling Technology
BigData
CloudComputing
IoT
Wireless
Value
5. Smart Waters – Smart Cities
• Technology
– High cost of subsea cabling
– Hitherto limited battery life of subsea wireless
• Infrastructure
– Assets designed for divers and ROVs
– Supply chain investment
• Culture
– ‘Visual automation’ paradigm
– Change equated with risk
Technical Challenge
Offshore Industries lag Big Data roll-out
Local PIDControl Plant–wide
SCADA/ DCS
Mobile Cloud
Computiing
Manual Inspection Industrial IoT
GEPredix
Process InspectionAutomation
Manual Inspection AUVInspectionROVInspectionDiver Inspection
Subsea InspectionAutomation
1970 1980 1990 2000 2010 2020
High Cost of Offshore Cabling
Visual Automation Paradigm
6. Smart Waters – Smart Cities
Key Advances
• 250 man-year R&D program into low frequency radio & associated technologies
– Seatooth/Terratooth: Efficient, wireless comms through water, ground, solids,
metal
– Seatooth Hybrid: Integrated Seatooth radios, acoustic, FSO (optical)
– Seatooth Endure: Ultra-low power, Seatooth radio technology – 30 year battery life
– Seatooth Navigation: Ultra low power, low cost, GPS independent location
– Seatooth Connect: Wireless data+power for AUV docking
– Subsea/Underground IoT: Bandwidth & power constrained wireless networks,
Edge analytics
– Subsea/Underground Cloud Computing: Data permanently at the edge
Distributed and hybrid Cloud computing
Artificial Intelligence (AI)/Machine Learning (ML) at the edge
Database synchronisation using AUVs
Hot-swap, connector-less devices
Digital Ledger (Blockchain) to manage asset data
• >300 patents filed
7. Smart Waters – Smart Cities
Subsea Wireless Comes of Age
- The Future is Hybrid
Seatooth Hybrid
• No single technology is the ‘silver bullet’
• Seatooth Hybrid Technology Radio, Acoustic, Optical, hardwired
• Battery life up to 30 years
8. Smart Waters – Smart Cities
• Multi-parameter smart sensors
– Process: Temp, Flow, Vibration, Acoustic,
Leak
– Asset Integrity: Temp, Vibration, Corrosion
– Environmental: Temp, Conductivity, turbidity
• Intelligent Bandwidth/Battery management
– Edge data processing: Data Information
– Edge process model correction; Edge Mission Analytics/AI
• ‘Seatooth Hot-Swap’: High integrity/reliability
– Separate enclosures for devices with external ports
– Wireless IoT network between modules (no jumpers)
– RAID architecture for redundancy
– Up to 30 year battery life per device
• Future-poof
– Replace modules when battery low or new sensor available
– Expand sensor/control capability
ExtremeEdge IoT and Cloud Computing
- Subsea Internet of Things Device
Subsea Internet of Things Device
9. Smart Waters – Smart Cities
Subsea Cloud Computing
Network (SCCN)
• Secure architecture based on
SIoT.
• Provides shared computer
resources and data to subsea
devices on demand.
SCCN Subsystems
• SIoT Smart Devices
• Hybrid communications
• Wide area database
synchronisation
• Digital Ledger
• AUV navigation
ExtremeEdge IoT and Cloud Computing
- Subsea Cloud Computing Network
Subsea Cloud Computing Network
12. Smart Waters – Smart Cities
ExtremeEdge Applications
- Oil & Gas
• Production Optimization
– Process characterization
– Real time point & distributed temperature
– EOR Water/Gas injection optimization
– Slug management
– Hydrate/Wax management
– Chemical injection optimization
Increase production by up to 15%
Decrease chemical costs by up to
50%
• Asset Integrity Automation
- Offshore structure FMD & fatigue
monitoring
- Riser/completion fatigue monitoring
- Mooring fatigue monitoring
- Field-wide corrosion optimization (CP)
- Point corrosion/Erosion automation (UT)
- Crack inspection automation (ACFM)
- Impressed Current optimization (ICCP)
- Vibration Management (FLIP, VIV, Span)
- Leak detection
Reduce costs by up to 90%
10
13. Smart Waters – Smart Cities
• Modelling tools often uncalibrated
against field data
– Flow assurance, asset integrity
• Lack of calibration leads to conservatism
– Increased CAPEX through over-design
– Sub-optimal production e.g. blockages,
slugs
– Excessive chemical usage
• SCCNs provide efficient process
characterisation leading to improved
control
Dynamic models linked to real time
data
Closed loop Chemical/EOR injection
control
ExtremeEdge Applications
- Production Optimisation: Increase production, Reduce Chemical
Costs
11
0
10
20
30
40
50
60
70
80
90
100
110
120
130
0 2000 4000 6000 8000 10000 12000 14000 16000 18000 20000
Temperature(°C)
Liquid Rate (STB/D)
WHFT
Temp leaving Cooler
Temp at Riser Base
Top-of-riser Temp
Wax Appearance
Hydrate Dissociation
Max Allowable Operating
Source: Xodus
Excess conservatism leads to reduced
production and increased costs
14. Smart Waters – Smart Cities
ExtremeEdge Applications
- Asset Integrity: Platform Online Monitoring (OLM)
• Using Big Data to Reduce costs and Risk
• Subsea Cloud Computing Network (SCCN)
– Seatooth Smart Clamps, integrated sensors, ExtremeEdge
analytics
– Dual redundant wireless sensor network
– Seatooth Control Station integrated with SCADA/DCS
• Sensor set
– Fatigue: Strain & Accelerometer/ Vibration
– Flooded Member Detection (FMD): UT
– Corrosion: CP, UT, Voltage (ICCP)
– Crack: ACFM, Acoustic emission (AE)
– Environmental: Temp, Water Current (Ultrasonic Flow), pH,
• Seatooth Smart clamps
– Deployable by light class ROV
– Self-monitoring
SCCN with 12 x Seatooth Smart Sensor Nodes
60 x Seatooth FMD Nodes
AUV Database
Synchronisation
15. Smart Waters – Smart Cities
• Real time information leading to improved level of
confidence in integrity of structures
• Step reduction in inspection costs through substitution of
vessel deployed ROVs by platform deployed eyeball
ROVs
• Extended inspection intervals and targeted campaigns
• Reduced information latency leading to lower cost to
repair and fewer unplanned interventions
• Improved safety through reduced use of rope access
• Improved ease of gathering and reporting asset integrity
information
• Improved fatigue models and cumulative fatigue life
information leading to extended asset life and reduced
CAPEX on new structures
ExtremeEdge Applications
- Business Case: Using Big Data to Reduce Cost and
Risk
Real Time Integrity Monitoring Network
16. Smart Waters – Smart Cities
Asset Integrity: Platform Online Monitoring
- Seatooth Smart Clamp with Integrated Sensors
• Seatooth Smart Clamps
– Retrofit Strain Sensor Modules
– Seatooth wireless controller
– Seatooth Antenna
– Edge analytics
– ROV deployable
– Self-monitoring
– Up to 30 years battery life
• Tubular structures
– Strain sensors mounted with ceramic pins
– Optional sensors: UT (FMD & corrosion)
• Concrete structures
– Strain sensors mounted to face of concrete
Strain Sensor Module
Seatooth Smart Clamp For Tubular Structures
Location pin
Load-spreading bar
Monitored structure
Seatooth Antenna
Seatooth Wireless Controller
Seatooth Smart Clamp For Flat Concrete Structures
17. Smart Waters – Smart Cities
ExtremeEdge Products and solutions
18. Smart Waters – Smart Cities
Summary and Conclusions
• Low levels of subsea automation have led to inefficiency
– High cost ROV/Diver inspection
– Overdesign through use of uncalibrated predictive models
• Automation key to driving down subsea costs
• Advances in sensor, wireless, battery and analytics
technologies collapsing the unit cost of data
• Subsea Internet of Things moves analytics to the edge
• Subsea Cloud Computing leaves data at the seabed
• ‘Hot-Swap’ architecture delivers reliability & futureproof
• The prize:
– Improved safety
– Reduced operating costs
– Reduced subsea inspection costs,
– Step reduction in CAPEX
Wireless On-Line Monitoring
19. Smart Waters – Smart Cities
19
ExtremeEdge Products and solutions
Seatooth Video
Subsea wireless camera
Battery: up to 8 hrs use
Seawater Range: 3-5m
Seatooth PipeLogger Mk2
Non-penetrating temp
controller
Process and seawater temp
Temp: 0-100DegC +/- 2DegC
Battery: up to 30 years
Seatooth PipeLogger-UT
Retrofit FMD/
corrosion monitor
Wall Thickness: <250mm
UT Accuracy: 0.1mm
Up to 8 UT sensors
Battery: up to 30 years
Seatooth PipeLogger-TI
Non-penetrating temp controller
Pipe-in-pipe or up to 4” foam
Temp: 0-100DegC +/- 5C
Repeatability: 1DegC
Battery: up to 30 years
Seatooth PipeLogger-UF
EOR automation
Accuracy:+/- 2-5%
Repeatability: +/- 2%
Battery: up to 10 years
Seatooth CP
Corrosion automation
solution
Stork Voltage/Current
sensor
Battery: up to 30 years
Seatooth CTFM
Fatigue management
Real time & cumulative
Seatooth Smart Clamp
‘Wine-rack’ wireless
architecture
For platforms, risers flowlines
Suitable for splash zone
Deployable by light class
ROV
Self-monitoring
Seatooth SWiCOM
Subsea wireless diver automation
Seatooth wireless Android tablet
Battery: up to 8 hrs continuous
Seawater Range: 5-10m
Seatooth LightRope
Subsea wireless RFID
For diver and ROV
automation
Battery: 16 hrs; 2 yr
standby
Seawater Range: 5m
Seatooth WiPS
Wireless Pressure/Temp
Integrated display
Seatooth Vibration
Fatigue, VIV, FIV
monitoring
Up to 1kHz
Battery: up to 5 years
22. Smart Waters – Smart Cities
Asset Integrity: Platform Online Monitoring
- Seatooth FMD Smart Sensor
• Seatooth FMD Smart Sensor
– Seatooth FMD wireless range of 30m
– Up to 3 x Integrated UT sensor
– Magnetic clamp, optional retaining strap
– FMD readings monthly & on-demand
– Battery life up to 30 years
Seatooth FMD with 3 x UT Sensors
23. Smart Waters – Smart Cities
• Brendan Hyland, Founder, Chairman
– Sectors: O&G, Defence, Consumer,
Environmental
– Location: Edinburgh
• Paul Tooms, Advisory Board, London
– Former Chief Engineer, BP
– Location: London
• Jarett Carson, Advisory Board, Boston
– Venture Capital/Private Equity
– Chemical Engineer
– Location: Boston
• Dr Terry Mah, Advisory Board, Boston
– Former CEO Veolia N Ameria
– Environmental Engineer
– Location: Chicago
• Dr Grant Maclean, CTO
– Former HP, Raytheon, Netthings,
– Location: Edinburgh
• Chris Curran, Project Director Americas
– Former BP Subsea Controls,
– Chair API 17F (Subsea Controls)
– Location: Houston
• Peter Sharpe, Defence Consultant, London
– Former AWE, General Dynamics, MoD Chief of
Staff
– Location: London
• Rob Soni, Advisory Board, Boston
– Former Partner, Matrix Partners, Bessemer
Partners
– Location: Boston
Leadership Team
23
25. Smart Waters – Smart Cities
Selected References
- Oil & Gas/Asset Integrity
Date
Installed Operator/Field Country Solution Sensor Make Measured Parameter Operational History
2013 Woodside, N Shelf Australia Packing valve video monitoring Bowtech Video Used during IRM campaign
2014 EnQuest, Don Southwest UK Export line temperatue monitoring RTD Temperature Deployed under concrete blanket
2014 Talisman/Repsol UK
Flowline upheaval buckling
monitoring RTD Temperature
20 systems supplied for deployment across UK
assets
2015 Apache, John Brooks Australia Export line temperatue monitoring RTD Temperature System installed Oct 15
2015 Petrobras, Santos Basin Brazil Coiled Tubing fatigue monitoring
Strainstall,
Invensense Strain, acceleration 10 x system deployments Aug - Dec 15
2015 Total, Laggan Tormore UK Video monitoring of construction Bowtech Video Deployed 3 times furing 2015
2015 Taqa, N Cormorant UK Corrosion monitoring network Voltage Network of 14 nodes; commissioned 2H15
2015 JAMSTEC Japan Flow monitoring Flow Qualification trials completed 4Q16
2015 Shell, Malampaya
Philippine
s Rock dumping monitoring GE Pressure Deployed 2Q15
2016 DRDC Canada Submarine corrosion monitoring Stork Voltage, Current Deployed Oct 16
2017
Quadrant Energy, John
Brooks Australia Export line temperatue monitoring RTD Temperature Deployed 1Q17
2017 BP/SD2, Azerbijan
Pipeline Pre-commissioning
automation Yokogawa
Pressure,
Temperature Deployed 2H17
2017 YFP Nigeria Export line temperatue monitoring RTD Temperature Deployed 1H17
Editor's Notes
Why do offshore industries lag Big Data roll-out?
There are a number of reasons.
The most obvious is technology.
- Deploying hard wired systems subsea is very expensive – that limits its use to critical applications
- And hitherto, wireless systems, largely acoustic, have operated with a limited battery life – usually < 2 years
But its not just a technology problem
there’s a substantial investment in infrastructure to support conventional, relatively unautomated practices. $bns invested in vessels for divers and ROVs; in safe systems of work and training#
And culture is a major issue too. Most people don’t like change. And Big Data introduces change
So what has changed in the wireless world?
Acoustic technology continues to mature. It is great for low to medium bandwidth communications in clear water columns, but challenged where there’s high turbidity, bubbles, thermoclines, near the water surface, near the seabed.
Free space optics can deliver very high bandwidths, but is challenged by turbidity
Seatooth radio, like free space optics is based on Maxwell’s Equations, but at lower frequencies. It is not subsecptible to turbidity, biofouling, thermoclines and the other factors that affect acoustic and optical. It’s range is generally shorter than acoustic and longer than optical. But it works in the most difficult environments, and importantly, can operate continuously at extraordinarily low power levels.
WFS now delivers Seatooth devices with a 30 year battery life
No single technology does everything - The future is Hybrid
At the core of SCCNs is smart wireless sensors
Hyrbid communications
Multi-parameter sensors
Local data processing
Using WFS’s Wine Rack architecture we hot swap sensors and communications devices, removing the need for cables and jumpers
The latest generation of SIOT systems are being configured as Subsea Could Computing Networks.
This is a system-of-systems architecture, based around the model of leaving large datasets permanently at the seabed
I will take you through the design