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Space industrial radio metering devices

Space industrial radio metering devices

Industry 4. The first industrial revolution was a convergence of different technologies that enabled engineers to drive the shift from handmade goods to mass manufacturing powered by steam. Today it is a convergence of different technologies, including sensing, communications, and big data processing that are seen as the building blocks of Industry 4. This data could not only optimize the manufacturing process, but could facilitate better business decisions and open the way for new kinds of businesses. At the base of Industry 4. This infrastructure enables decision makers to extract data from machines, factories, and field devices.

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Robust Wireless Communications for Industry 4.0

Smart metering is widely regarded as the cornerstone for future smart grids and is currently being deployed all over the developed world, with a growing number of large-scale initiatives now also being launched in developing countries. The Asia-Pacific constitutes the largest market by far while North America ranks as the third-largest market after Europe. The two highly dynamic market regions saw a wave of massive smart metering projects being launched or completed during the first half of the current decade.

Several major utilities in these regions are thus now preparing for second wave deployments to take off, driven by new smart meter functionalities and smart energy use cases. Other emerging markets in South and Southeast Asia are on the other hand just beginning their smart metering journeys, following in the footsteps of the leading markets in East Asia.

Installed base of smart electricity meters in North America is forecast to grow at a compound annual growth rate of 6.

At this pace, the four Asian markets China, Japan, South Korea, and India will alone surpass 1 billion installed smart electricity meters in North America was the first region in the world to move beyond traditional energy metering through the widespread introduction of AMR that started in the s.

Today, intelligent grids are becoming an integral part of the development of smart cities, and smart meters' ability to improve the reliability and resilience of energy supply constitutes an important driver of growth in the region. A majority of the large investor-owned utilities in North America are now either fully deployed or in the implementation or planning phases of large-scale projects, and a second wave of deployments is soon to begin for the early adopters. The penetration of smart meters is currently about 60 percent and is expected to increase to 81 percent in , primarily driven by large investor-owned utility projects in the US as the relatively mature market in Canada is expected to see moderate growth.

Asia-Pacific constitutes the world's largest and fastest-growing meter market with an estimated installed base of over 1. Annual demand for electricity meters in the region is in the range of million units, with China accounting for around 70 percent of the volume.

The Asia-Pacific is highly fragmented in terms of the progress of smart metering deployments, and the regional markets can be divided into three general groups. Two countries - China and New Zealand - have more or less completed their first wave deployments of smart electricity meters. In China, second wave deployments are already underway and are soon to begin in New Zealand as well.

South Korea and Japan are on the other hand in the midst of their nationwide deployments and are scheduled to be fully deployed by and respectively. The third group consists of markets finding themselves in the early phases of smart meter deployments - Australia and India. Although Australia was early to deploy smart meters in the state of Victoria, the market has since stayed dormant and just recently resumed deployments after having switched to a market-driven approach.

The Indian market has after a few years of pilot projects now begun large-scale deployments of smart metering, largely driven by ambitious governmental targets to reach nationwide coverage within the next few years.

In total, the penetration of smart meters in the Asia-Pacific was 67 percent in and is expected to grow to 94 percent in , primarily driven by the expected mass-deployments in India. China and South Korea constitute two particularly isolated markets where a large number of domestic vendors serve the national utilities in their respective markets.

Similarly, the countries have also seen largely independent technology trajectories in the smart meter communications space, with RF mesh historically preferred in North America, Japan, and Australia while national standard PLC technology dominates in China and South Korea, and cellular being the primary choice in New Zealand. Cellular is also expected to be the dominant communications technology in India's mass-deployments as well as in Australia's forthcoming market-driven deployments.

Smart meters accounted for around 87 percent of the total electricity meter shipments in France overtook Spain as the largest market by volume with yearly shipments of more than 8 million units, as the nationwide rollout ramped up to volume. Italy and the UK were other major geographic markets with shipments of million units each.

As a consequence, annual shipments of smart electricity meters will reach a peak of around 25 million units per year in the early s. The majority of the new installations will take place in France and the UK, with a significant contribution also coming from countries like Austria and the Netherlands.

In the meantime, adoption in Germany is held back by protracted standardization efforts and modest deployment targets set by the regulator.

The outlook for Central Eastern Europe is mixed. Romania is seemingly moving towards a full-scale rollout and Poland is headed in the same direction even though there are delays in the regulatory process. Lithuania became the latest country to launch a nationwide rollout in Italy and Sweden were the first European countries to embark on nationwide deployments of smart meters in the last decade.

As the systems deployed in both countries reach their end-of-life, the DSOs are launching a second wave of rollouts. In Italy, Enel's distribution arm-e distribuzione is leading the way with plans to install 13 million second-generation meters by and another 28 million in the following decade. Sweden adopted a new regulatory framework for second-generation smart electricity meters in June The regulations will take effect in January and most DSOs have already launched the procurement of second-generation systems that fulfil the new requirements.

The rapid development of new technologies for industrial Internet of Things has a major impact on the smart metering market in Europe. DSOs planning for new smart grid projects and rollouts in the s have a wide range of increasingly sophisticated wireless technologies to choose from as networking platforms. Wireless technologies have major advantages compared to PLC technologies which dominated the first wave of smart electricity deployments in Europe. Radio based networks can offer more bandwidth, shorter response times and improved security, combined with excellent coverage, even in difficult locations like cellars and rural areas.

ESO's choice of NB-IoT as the networking platform for its upcoming nationwide rollout in Lithuania was a significant milestone in the adoption of cellular IoT technology in the industry. Even if some of the functional requirements for the project are challenging from a technical perspective, any issues will eventually be resolved through incremental updates of the NB-IoT standard.

Next, to NB-IoT there is also room for the next generation of advanced mesh radio technologies in the European market. Updated radio frequency regulations are opening up new spectrum in the sub-GHz band in a growing number of countries.

Norway and Sweden enabled the deployment of mesh radio technology for smart metering by setting aside spectrum in the MHz band for smart grid applications. Similar regulatory changes are also considered in other European countries. Mesh radio technology can be combined with cellular technology to create highly cost-efficient networks optimised for performance and security.

Adoption of smart metering is also growing fast in the European gas distribution market. Demand will remain stable until , before dropping as nationwide rollouts are completed. Italy was the largest market in with yearly shipments of 4. France launched the mass rollout in , which will ramp up to a rate of around 2.

The UK market accelerated in and should ramp up to more than 4. The Netherlands will see volumes of more than 1. Ireland, Lithuania, and Luxembourg will contribute with smaller volumes, presumably followed by Austria and possibly some other countries in the early s. Research and Markets also offers Custom Research services providing focused, comprehensive and tailored research.

Subscribe via RSS. Subscribe via ATOM. Register Sign In. Contact Us. Email Print Friendly Share. Smart Metering in Europe Smart meters accounted for around 87 percent of the total electricity meter shipments in Research and Markets. With a Reader Account, it's easy to send email directly to the contact for this release. Sign up today for your free Reader Account! Already have an account? Log in here. Formats available: Original Medium Small.

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LoRa Devices and LoRaWAN Protocol Lead Smart Metering into the Connected Future

From managed connectivity to off-the-shelf managed services for select vertical markets, supported by a robust IoT platform. How will 5G technology lead to evolutionary and disruptive changes in the IoT? Best-in-class network management and technical support bundled together to make it easy to monitor, configure, upgrade, and support your AirLink gateways and routers.

With an expected rollout of 53 million smart meters by the smart metering systems market is rapidly reaching maturity. Within the UK the second version of the Smart Metering Equipment Technical Specifications SMETS has been published and countries around the world are consulting on and publishing their own recommendations for communication and usability standards for smart metering systems. Although these standards specify particular communication protocols, there is still flexibility to allow engineers to use the best protocol for the job.

The iioote team has extensive experience from IT and telecom industry, product development, A network outage can be extremely costly for an organization with an average cost of network Alevel 1x5 sensor is a hardware element of flexible and customized system for LPG distributors This class A interface has mA and V 12 bit 12 bit channels.

Semtech’s LoRa Technology Integrated in Lemonbeat’s Utility Metering Solution

Aimed for automatic metering of natural and associated gas during storage, transportation, gas processing, and also for recording operations. The metering of natural and associated petroleum gas is done in compliance with the following regulations:. SME Tomsk Electronic Company follows all the changes in regulatory documents regarding gas metering, participates in seminars on oil and gas and offers new options and opportunities for gas metering. Upon Customer's requirements it is possible to provide metering of natural and associated petroleum gas within the same system, using one metering controller, thus one can optimize space and save costs for equipment servicing. This will allow significantly decrease costs on operator's workstation. Flow distribution between metering lines can be both manual and automatic. Number and diameter of metering lines are calculated basing on maximum flow rate through SIKG and type of applied flow meters. Purpose Aimed for automatic metering of natural and associated gas during storage, transportation, gas processing, and also for recording operations. The metering of natural and associated petroleum gas is done in compliance with the following regulations: GOST Oil Metering Systems.

Even more detail for your energy data

This post is part of our Industry Series, an ongoing campaign to provide a foundation of knowledge about our unique industry. To learn more about this campaign, please click here. Of the physical components comprising smart grid architecture, the communications technology, a collection of communication network components that enable the flow of information throughout the grid, is the most complex. Advanced metering with two-way communications has the potential to make meters a core element of an integrated system and better manage utility services. But what kind of communications are appropriate?

While new energy needs have emerged, with an increased demand of 50 percent since the s and with a further 30 percent increase expected by , new technologies are providing improved solutions for dealing with energy management. These new telecommunications technologies, therefore, represent a strategic development lever for energy stakeholders because they let them create an interconnected ecosystem, with machine-to-machine M2M devices, such as sensors and data concentrators, at its core.

Automatic meter reading AMR is the technology of automatically collecting consumption, diagnostic, and status data from water meter or energy metering devices gas, electric and transferring that data to a central database for billing, troubleshooting, and analyzing. This technology mainly saves utility providers the expense of periodic trips to each physical location to read a meter. Another advantage is that billing can be based on near real-time consumption rather than on estimates based on past or predicted consumption.

IoT Radio Protocols for Smart Metering: WM-BUS & LoRa

Market-ready meters offer dual radio communication for increased accuracy. With Semtech, we have found a leading provider who was able to meet our requirements. Using this connectivity, meters send data through multiple floors in bigger buildings or all the way into the street, where network operators can conveniently collect the data without having to enter the building. With a third-party application, individuals can view and analyze this data, and change their habits accordingly.

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As more cities move toward urbanization, countries all over the world are developing technology that will help fully monitor and control operations. Traditional utility meter monitoring operations are labor intensive, as they require manual reading and measurement by personnel in the field or remote reading using a short-range wireless technology typically in a drive-by scenario. Meters are often located in dense urban environments, indoors or even underground, which can be difficult or impossible to reach by many wireless technologies. By implementing a smart metering infrastructure comprised of sensors and gateways embedded with LoRa devices, utility companies can collect data remotely and use personnel more efficiently to streamline operations. With one application, LoRa devices and the LoRaWAN protocol can create a smart metering application across verticals that are scalable, secure and reliable. It offers a trade-off of sensitivity versus data rate and bandwidth.

Global Smart Metering Markets, 2018-2019 & Forecast to 2024

Badger Meter offers innovative flow metering and control solutions for smart water management, smart buildings and smart industrial processes, to help measure and protect resources for a smarter world. Water meters, meter reading and analytics technologies for municipal water utilities. Flow measurement and control products for water, oil, gas, and other fluids in a wide range of industries. Concrete consolidation products for construction and paving markets. Measuring a variety of liquids — from water to oil and lubricants — we offer the most technologically advanced products to ensure a high degree of accuracy, long-lasting durability with the ability to provide valuable and timely measurement information to our customers.

Jan 23, - of smart meter based devices is coming into commercialization to A key challenge facing the smart metering industry is that previous trials have given mixed changes in space heating, household composition and the impact of hub and use low power radio communication to link the other utility meters.

Smart metering is widely regarded as the cornerstone for future smart grids and is currently being deployed all over the developed world, with a growing number of large-scale initiatives now also being launched in developing countries. The Asia-Pacific constitutes the largest market by far while North America ranks as the third-largest market after Europe. The two highly dynamic market regions saw a wave of massive smart metering projects being launched or completed during the first half of the current decade. Several major utilities in these regions are thus now preparing for second wave deployments to take off, driven by new smart meter functionalities and smart energy use cases.

Metering specific tenants, processes and buildings makes identifying savings easy. We find the most cost-effective options including low powered radio, advanced meters and logging devices. Flexible payment methods are available to allow you to access the benefits of sub-metering immediately.

This guide is intended to tell you everything you need to know about what is possible with modern metering and submetering. With actions informed by a detailed look at the way utilities move through your building, it is possible to significantly reduce their consumption in some cases and shift necessary use to cut operational costs in others. Other types of meters give building engineers information about the quality of air in a tenant space to assist in efforts to make the space more comfortable and safe.

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In the era of smart grids, smart metering entails not only the measurement of electricity, gas, water or heat consumption, but also communications from meter to data concentrator, or cloud. Real-time reporting of energy consumption directly to consumers improves consumer awareness, leading to waste reduction and lower expenses. The use of smart meters to measure and report energy consumption enables utilities and energy distributors to manage their supply and demand in real time. The main benefits of smart metering systems are lower costs, higher reliability, reduced tampering and less carbon emissions.

Коммандер, я должна… - попробовала вставить слово Сьюзан. И снова Стратмор нетерпеливым взмахом руки заставил ее замолчать. Сьюзан в испуге взглянула на Хейла. Он стоял с безучастным видом, словно происходящее его никак не касалось. И это понятно, - подумала .

Теперь крышку не поднять изнутри. Подсобка компьютера надежно закрыта. Ни он, ни Сьюзан не услышали тихих шагов в направлении Третьего узла. ГЛАВА 60 По зеркальному коридору Двухцветный отправился с наружной террасы в танцевальный зал.

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