How Cellular LPWA and 5G Enable Infrastructure for Smart Utilities

2022-08-08
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Grid and metering infrastructures are top of mind for forward-looking utility companies. The approach consists of an integrated system of highly connected grid components, smart meters, communication networks and data management platforms. Utilities employing the smart architecture can:  

  • Reduce power outages and electrical spikes
  • Help consumers lower their monthly energy bills 
  • Give access to gas, electric and water readouts through remote mobile devices 

Across Europe and the U.S., smart grids and a vast status-reading sensor network are paving the way for a cost-effective, eco-friendly future. It’s a commonly held belief that smart utilities are entirely a low-data-rate and latency-tolerant space.

However, 5G (including private networks) will advance smart grids for teleprotection, real-time energy spike control, load balancing and fast energy rerouting with novel operating models.  

Today, the smart metering dimension of smart utilities features cross-network connection capability for 2G, 3G, 4G LTE and even unlicensed spectrum networks. Currently, the go-to technology for smart meters is cellular LPWA (i.e., LTE-M and NB-IoT).

3GPP specified these technologies as part of the 4G LTE standard. However, LTE-M and NB-IoT have been merged under the 5G umbrella, evolving into more effective spectrum. They will power users in 5G-NR beyond 3GPP Release (Rel) 16.  

5G’s impact on IoT solutions in enabling new applications across smart utilities’ functionality will be felt worldwide. Building a smart grid framework for 5G capabilities will revolutionize how the world connects us to the world around us. Expected in 2024, 5G-Advanced (3GPP Rel 18) promises to bring even more intelligence and energy efficiency to the network. 5G-Advanced (5G-A) will allow utilities to meet sustainability goals, including CO2 reduction and water use. 

How Does Smart Metering Work?

Smart metering enables devices to connect to water, gas, oil and electric utilities. Power companies and first responders will gain real-time wireless control with a 5G-enabled grid network. This control is achieved through analyzing data lakes filled by an infrastructure of meters and sensors monitoring consumption and variables (e.g., water and power quality).

These meters and sensors send readouts to data lakes operated by utility companies. The data is analyzed and expressed in alerts and diagnostics to help users understand their consumption patterns and behaviors. 

Home consumers will save money with more accurate bills and understand consumption behavior by seeing instant usage numbers on a phone app. Gone are the days of utility companies sending someone to read the meter on their property.   

Other smart utility capabilities for industrial use include sensors to regulate oil industry pipelines and equipment. They sense gas leaks and toxins in mining operations, among other practical metering applications in which safety is essential. 

Capabilities of Smart Utilities

Utilizing smart sensors and other rising technologies, IoT innovation from solution providers to the utilities include:  

  • Automatically and instantaneously measuring electricity usage  
  • Connecting or disconnecting service  
  • Detecting energy theft or water and gas leaks 
  • Identifying and isolating outages
  • Enabling time-based rate programs and incentives from power companies 

The quicker the communication is between device and server, the quicker the action.  

Smart grids continue to gain traction worldwide. A recent report shows the U.S. and global market growing fast. 

How Will 5G Change Smart Grid Solution Implementation?

Many infrastructures are being upgraded with 4G LTE solutions. As more devices stretch bandwidth to peak capacity, what advantages will 5G offer over 4G networks?  

5G speeds and access remain focused on reaching the consumer market. As 5G rolls out more IoT-focused features on the network like ultra-reliable low-latency communication (URLLC), we will see:  

  • Faster power reconnection after outages  
  • More cost-effective measures across 5G connected homes and facilities  

Metering frameworks (e.g., gas line sensors and water meters) would be difficult to access and costly to perform maintenance on if they required battery replacement every year or two. 5G connectivity made up of LTE-M and NB-IoT options facilitates this need with:  

  • Longer battery life for devices using cellular LPWA modules
  • Expanded geographic coverage for connected devices 

Standards more adept at connecting multiple devices for longer durations than 2G to 4G are being developed. 5G will support over 1,000 more devices per unit area than 4G. 5G’s network slicing, compared to the present-day LTE, will allow smart energy use cases to be handled by a single network.  

According to Tim Fisher with Lifewire, the difference between 4G and 5G is that 5G has the room to operate through radio frequencies unencumbered by billions of connected devices. 

Direct Consumer Benefits of 5G Smart Grids

5G smart grids will enable an uninterrupted data stream that transmits safely despite “interference, obstacles and network congestion,” according to Business Insider.  

A fine-tuned smart grid operation on a 5G network can bring the following benefits to consumers and utilities:  

  • Reduced billing costs  
  • Reduced metering costs  
  • Reduced customer disputes  
  • Operational efficiency improvements
  • Personalized control over electricity consumption  
  • Real-time customer tools 
  • Lower utility capital expenditures  
  • Lower outage costs  
  • Fewer inconveniences across the board

Looking Ahead to 5G-A

Industries are awaiting the network rollout of Rel 17, expected in 2023-24, as the enabler of 5G massive IoT (i.e., large LPWAN industrial sensor deployments, including smart meters and smart grid sensor nets). As previously mentioned, 3GPP is already concluding Rel 18 (5G-A) for 2024. 

3GPP is still evaluating proposals from industry leaders and has yet to define specific specifications. Here’s a summary of some proposed innovations: 

  • Enhanced Energy Efficiency
    5G-A infrastructure will use less energy to transfer data, helping industries meet sustainability goals. This advantage will be useful for utilities in meeting government policies and regulations for renewable energy grids and carbon reduction requirements. Maximizing device battery life will also be a priority for 5G-A. The technology might use artificial intelligence (AI) and machine learning (ML) to enhance radio performance. “Wireless Networks are extremely complex, highly dynamic, and vastly heterogeneous,” writes Prakash Sangam, 3GPP member and founder and principal at Tantra Analyst. “There cannot be any better approach than using AI/ML to solve the hard wireless challenges.”
  • Higher Accuracy Indoor Positioning  
    The initial 5G releases are poised to improve positioning accuracy, but 5G-A will likely further enhance that. Proposals suggest using satellites to pinpoint the exact location of devices, even in indoor environments. For utilities, this technology will help track assets on the move, such as service vehicles and maintenance drones (UAVs). 
  • Streamlined Handovers 
    Tower handovers can still cause service interruptions as devices move from place to place. 5G-A promises to minimize these disruptions. This enhanced connection reliability will enable creative new approaches to the surveillance and maintenance of utility grids. 
  • Improved Reduced Capability User Equipment 
    Many IoT use cases, including most smart meters, do not require high-speed connectivity. For these, LPWAN or other reduced capability (RedCap) user equipment (UE) is sufficient. 5G-A promises to deliver a simpler infrastructure and better energy efficiency while improving coverage for low-power cellular devices. The new infrastructure will allow utilities to operate large smart meter and grid deployments on 5G that require 100 Mbps or less at a reduced cost. 
  • Highly Accurate Timing 
    Smart utility applications require reliable connectivity and positioning. They also need precise timing. Substations serve as some of the most vital links in the chain for utilities. They oversee regulation for power plants and renewable energy sources as well as consumers. As grids become smarter and allow two-way communication and energy distribution, substations will require time synchronization to millisecond accuracy. 5G-A promises to provide this accuracy. It will enable smart grids to embrace automation and manage diverse power sources, including renewables. 

The Future of Smart Metering with Telit’s 5G Solutions

Are you ready to reach your 5G potential?  

With over 22 years of experience in IoT technology and solutions, Telit has a proven track record of contributing to the smart metering solutions industry worldwide. Start innovating or upgrading your cellular-connected and smart grid device portfolio cost-effectively. Telit makes it easy to get it done. Our IoT experts will help you find the right cellular LPWA and 5G modules and custom IoT data plan for your needs.   


Editor’s Note: This blog was originally published on 7 November 2019 and has since been updated. 

参考译文
蜂窝LPWA和5G如何为智能公用事业提供基础设施
电网和计量基础设施是有远见的公用事业公司的首要考虑。该方法包括一个由高度连接的电网组件、智能电表、通信网络和数据管理平台组成的综合系统。使用智能架构的公用事业可以: 在欧洲和美国, 智能电网 和一个巨大的状态读取传感器网络正在为一个成本低、 环保的 未来铺平道路。人们普遍认为,智能设备完全是一个低数据率和延迟容忍的领域。然而,5G(包括专用网络)将以新颖的运行模式推进智能电网的远程保护、实时能源峰值控制、负载平衡和快速能源路由。今天,智能计量尺寸的智能公用事业 功能 跨网络连接2G, 3G, 4G LTE,甚至未经许可的频谱网络。目前,智能电表的首选技术是蜂窝LPWA(即LTE-M和NB-IoT)。3GPP将这些技术指定为4G LTE标准的一部分。然而,LTE-M和NB-IoT已经在5G的保护伞下合并,演变为更有效的频谱。它们将为5g nr用户提供超过3GPP Release (Rel) 16的支持。5G对IoT解决方案的影响将在全球范围内感受到 的影响,在智能公用事业 功能 上实现新的应用。 建设 智能电网 5G能力框架将彻底改变世界将我们与周围世界连接的方式。 预计在2024年,5G-Advanced (3GPP Rel 18)承诺为网络带来更多的智能和能源效率。5G-Advanced (5G-A)将允许公用事业公司实现可持续发展目标,包括减少二氧化碳和用水。智能计量使设备连接 水,天然气,石油和电力公用事业。通过5g网络,电力公司和急救人员将获得实时无线控制。这种控制是通过分析数据湖实现的,由一个 基础设施的仪表和传感器 监测消耗和变量(例如,水和电力质量)。这些仪表和传感器将读数发送到由公用事业公司运营的数据湖。数据以警报和诊断的形式进行分析和表达,以帮助用户了解他们的消费模式和行为。家庭消费者可以通过更准确的账单来省钱,还可以通过手机应用程序上的即时使用数据来了解消费行为。公用事业公司派人来查看其物业表的日子已经一去不复返了。  其他用于工业用途的智能公用事业能力包括调节石油工业管道和设备的传感器。它们能感知采矿作业中的气体泄漏和毒素,以及其他安全至关重要的实际计量应用。利用智能传感器和其他新兴技术,从解决方案提供商到公用事业的物联网创新包括: 设备和服务器之间的通信越快,行动越快。智能电网在全球范围内继续获得吸引力。最近的一份报告显示,美国和全球市场增长迅速。许多基础设施正在升级4G LTE解决方案。随着越来越多的设备将带宽扩展到峰值容量,5G网络将比4G网络提供哪些优势? 5G的速度和接入仍然专注于到达消费市场。随着5G网络推出更多以物联网为重点的功能,如超可靠低延迟通信(URLLC),我们将看到:计量框架(如燃气管道传感器和水表)将很难获得,如果它们需要每隔一两年更换电池,维护成本将很高。 由LTE-M和NB-IoT选项组成的5G连接 通过: 促进了这一需求 比2G到4G更长时间的多设备连接标准正在开发中。5G将比4G在单位面积上多支持1000多台设备。 与目前的LTE相比,5G的网络切片将允许智能能源的使用案例由单个网络处理。  Lifewire的蒂姆·费希尔表示,4G和5G的区别在于,5G有空间通过无线电频率运行,不受数十亿连接设备的阻碍。据《商业内幕》报道,5G智能电网将使不间断的数据流安全地传输,尽管“干扰、障碍和网络拥塞” 。 在5G网络上进行微调的智能电网操作可以给消费者和公用事业公司带来以下好处: 行业正在等待预计在2023-24年推出的Rel 17网络,作为5G大规模物联网(即大型LPWAN工业传感器部署,包括智能电表和智能电网传感器网络)的推动者。如前所述,3GPP已经完成了2024年的Rel 18 (5G-A)。3GPP仍在评估来自行业领导者的建议,并尚未确定具体的规范。以下是一些拟议中的创新的总结:你准备好 达到你的 5G 的潜力了吗? 在物联网技术和解决方案方面拥有超过22年的经验,Telit在全球智能计量解决方案行业贡献了良好的记录。开始经济有效地创新或升级您的蜂窝连接和智能电网设备组合。 Telit 使它很容易 完成。我们的物联网专家将帮助您 找到正确的 蜂窝LPWA和5G模块,并为 您的 需求定制物联网数据计划。  编者注:本博客最初于2019年11月7日发布,并已进行更新。
  • 5G
  • 传感器
  • 通信
  • 5g通信
  • 5g网络
  • 蜂窝网络
  • en
  • 公用事业
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