It’s challenging to picture living in a disconnected world, given how easily the Internet has changed our lives. Yet, although utilizing this technology has never been simpler. Additionally, there isn’t a genuine unified system that provides the security and connection we want.
The IoT may appear a little perplexing to those unfamiliar with it. Yet ultimately, it comes down to how we link our ordinary electronic gadgets to one another. Home automation, transit systems, medical equipment, and many other technologies we take for granted are all powered by the Internet of Things. The Internet is the Internet expressed.
Because there are so many Internet-connected devices, it is impossible to quickly and securely sync all this gear and software. So, that’s where Intel comes in with its IoT Platform, which accomplishes the same thing.
The gateway already has the client software installed, enabling communication with the iBEMS server. The corporate network server manages the operating system, driver, and application upgrades for gateway software. The iBEMS application sits on the upgrade server. One must configure them locally by entering their server URL. An agent on the gateway continuously scans the server for updates to the hardware configuration. The latest software updates come from the server and are concurrently deployed on all system gateways when it identifies a change. Pull, install, and restart often take less than two minutes.
Network and gateway security
To prevent hackers from using the sensor network to gain access to the Intel corporate network, Intel uses a network structure and security procedures expressly created for that purpose. Using a gateway that connects the two networks using different interfaces for each, the topology physically separates the sensor network from the corporate network. Regarding security procedures, a firewall guards the iBEMS software on a server connected to the company network. As a result, iBEMS cannot receive any Internet connections from beyond the firewall.
The gateway connects to clients using the secure socket layer -SSL (v2/v3) and transport layer security (TLS v1) network protocols and encrypts messages using OpenSSL to protect data transactions. The trusted platform module (TPM) chip on the gateway allows programs’ encryption and distribution security. In addition, secure boot and application whitelisting software safeguard the gateway itself. Secure boot confirms that the gateway’s operating system is generally in good condition. Furthermore, only middleware and apps from a predetermined list can execute on the gateway, thanks to application whitelisting.
Communication protocols, rules, and data integration
Bridging the numerous communication protocols used by the various building systems is difficult for building control. An Intel® processor-based IoT gateway can serve as a central coordinator by ingesting messages from several protocols, including BACnet-IP and Modbus* TCP/IP. The gateway can also handle messages following a set of predetermined rules. More simple rules should operate on a cloud server. However, more sophisticated rules should run on the gateway if they are time-sensitive and don’t require much computation.
Over 5,000 rules are among two redundant backend servers and gateways in the Intel smart building system. First, we review the data on the gateway, and the piece that needs more processing goes to the cloud via the MQTT messaging protocol in JSON format. Daily, the sensors create about 50 GB of data dispersed among 60 IoT gateways. In the cloud, they examine around 40% of the sensor data. In addition, there is a method for backing up and archiving data on the cloud.
The critical components of Intel IoT include:
Intel IoT Platform: It is a complete collection of hardware and software solutions created to support IoT solutions in various sectors, such as healthcare, manufacturing, retail, and transportation.
Intel IoT Gateway: It is a tool that links IoT gadgets and sensors to the cloud. It allows for real-time data collecting, analysis, and administration.
Intel IoT Analytics: It is a collection of technologies, including machine learning and artificial intelligence algorithms. It is ideal for processing and displaying the enormous volumes of data produced by IoT devices and sensors.
Intel IoT Security: a collection of security procedures and tools to guard networks and IoT devices against online dangers.
Applications of Intel IoT
“Internet of Things” (IoT) refers to a network of physically linked machines, objects, and gadgets equipped with sensors, connections, and software to share data and communicate without human interaction. Intel has been a significant player in the IoT industry, with hardware, software, and services that let developers create and implement IoT solutions across several sectors.
Homeowners may now use smart appliances and gadgets to automate their houses, thanks to Intel IoT. As a result, homeowners can remotely manage and monitor their homes from smartphones, tablets, or laptops with Intel IoT-enabled products like smart locks, lighting systems, security cameras, and thermostats. Smart home systems powered by Intel IoT may also learn and adjust to users’ preferences and behavior patterns to optimize energy usage, boost security, and improve overall comfort and convenience.
The healthcare sector offers many opportunities for Intel IoT, from remote patient monitoring to proactive medical equipment maintenance. For example, healthcare professionals may gather real-time data on patients’ vital signs, medication adherence, and general health condition using Intel IoT-enabled devices like wearables, sensors, and smart pills. We may examine this data to customize therapy and enhance patient outcomes. Moreover, we may monitor and maintain medical equipment performance using Intel IoT, limiting downtime and the chance of equipment failure.
Intel IoT is revolutionizing the industrial sector by enabling real-time monitoring and improving production processes. Manufacturers may gather information on various manufacturing process elements, such as machine performance, energy usage, and product quality, using Intel IoT-enabled sensors and devices. Then, we may examine this information to find areas that require improvement, lessen waste, boost productivity, and raise standards overall. Moreover, Intel IoT may be helpful for predictive machine maintenance, decreasing downtime, and boosting efficiency.
Intel IoT is transforming the management of crops and livestock by farmers. Using Intel IoT-enabled sensors, farmers may gather information on animal behavior and health, soil moisture, temperature, and nutrient levels. Then, with this information, crop yields, water and fertilizer consumption, and animal welfare may all be improved. Precision farming is another use for Intel IoT. As a result, it enables growers to precisely target certain crops with the proper combination of water, herbicides, and fertilizer.
Real-time monitoring and logistics optimization made possible by Intel IoT are revolutionizing the transportation sector. Transportation businesses may gather information on various elements of their vehicles and supply chain, such as fuel use, driver behavior, and cargo conditions, using Intel IoT-enabled devices, such as telematics, sensors, and cameras. This data analysis may help pinpoint problem areas, save expenses, boost productivity, and enhance security and safety.
Retailers’ interactions with consumers and inventory management are changing thanks to Intel IoT. Retailers may gather information on consumer behavior, preferences, traffic patterns, inventory levels, and product performance using Intel IoT-enabled devices like smart shelves, beacons, and cameras. Personalized suggestions, we may achieve all shop layout and product placement optimization, inventory management, and supply chain efficiency by analyzing this data.
Intel IoT is revolutionizing the energy sector by allowing real-time monitoring and optimization of energy production, delivery, and consumption. Addtitoinally, energy firms may gather information on energy use, demand, output, weather patterns, and grid conditions with Intel IoT-enabled devices such as smart meters, sensors, and energy storage systems. We may then examine this data to maximize the production and distribution of energy.
Advantages of Intel IoT
The Internet of Things (IoT) drastically changes how we live and work. IoT enables organizations to make better decisions, streamline operations, and enhance consumer experiences by linking devices, sensors, and data. With its Intel IoT platform, one of the top technology corporations has been at the forefront of IoT innovation. The benefits of Intel IoT and how it is changing the IoT environment are listed below.
The Intel IoT also has the benefit of scalability. IoT solutions must be adaptable to changing business and industry demands. Various tools and technologies from Intel IoT make it possible for companies to grow their IoT solutions rapidly and effectively. Its scalability is necessary to support the explosive expansion of IoT services and applications.
Each IoT solution must prioritize security. The risk of cyberattacks is more significant than ever because of the billions of gadgets linked to the Internet. Advanced security features from Intel IoT shield devices and data from online dangers. Encryption, authentication, and intrusion detection are some of these characteristics. Businesses may guarantee the integrity of their IoT solutions and safeguard their sensitive data by utilizing these security features.
Real-Time Data Analytics
The IoT mainly focuses on data. Businesses can get insights to guide their decision-making by gathering and evaluating real-time data. Intel IoT offers robust analytics capabilities that let companies gather and examine data from various sources. We may use this information to spot patterns, generate projections, and streamline processes.
Enhanced efficiency is one of Intel IoT’s main benefits. Businesses may streamline operations and boost productivity by utilizing the potential of IoT. Intel IoT offers organizations the tools and technology to monitor and manage devices remotely, minimizing manual intervention. As a result, there may be less downtime, more productivity, and fewer operating expenses.
Connectivity is at the core of IoT. Moreover, for an environment where data can be transferred and evaluated in real-time, it must be possible to link devices, sensors, and people. Intel IoT offers various communication options, including Wi-Fi, Bluetooth, ZigBee, and cellular. These connectivity choices allow for easy data transfer between devices, empowering companies to develop sophisticated IoT solutions.
Future of Intel IoT
IoT is one of the upcoming major commercial prospects; getting involved now might give you a competitive advantage. With an open, standards-based reference model and a wide, increasing product range, Intel is making investments to succeed in the Internet of Things. The ecosystem from Intel is essential to success: preparing, implementing, and overseeing end-to-end solutions
With a strong focus on offering end-to-end solutions for several sectors, including manufacturing, retail, and healthcare, Intel IoT is presently one of the market leaders in the IoT sector. The business offers a wide range of IoT solutions in its portfolio, including processors, modules, gateways, and software platforms that may be helpful in creating different IoT applications.
The capability of Intel IoT to offer specialized solutions to fulfill the unique requirements of many businesses is one of its main advantages. For instance, Intel IoT offers solutions for asset tracking, predictive maintenance, and remote patient monitoring in the healthcare sector. In addition, Intel IoT offers solutions for inventory management, consumer analytics, and individualized marketing in the retail sector.
Intel IoT has set itself apart from other companies that provide more broad solutions by concentrating on vertical-specific solutions. Moreover, this strategy has assisted Intel IoT in attracting several prestigious clients, including GE, with whom it has worked to create several industrial IoT products.
Strategy for Growth
Intel IoT has created a growth plan that focuses on three essential areas: hardware, software, and ecosystem, to take advantage of the increasing demand for IoT solutions.
Hardware: Intel IoT continually develops new CPUs and other hardware components, especially for Internet of Things applications. For instance, the business recently unveiled its 11th Gen Intel Core processor, tailored for edge computing and artificial intelligence (AI) applications.
Software: Developing and deploying IoT applications require software platforms, which Intel IoT is aggressively investing in. Products from the company’s IoT software portfolio, including Intel System Studio, Intel Edge Software Hub, and the Intel Distribution of OpenVINO Toolkit, can be used to create edge computing, computer vision, and AI applications.
Ecosystem: Last but not least, Intel IoT is trying to create a robust ecosystem of partners and developers that can contribute to advancing innovation in the IoT sector. The business has formed several alliances with businesses. They include Microsoft, Dell, and Cisco. As a result, these businesses create collaborative solutions that can assist clients in accelerating their IoT implementations.
For a variety of end-user industries, Intel provides several solutions. The business creates and produces cutting-edge, integrated digital technology systems. Moreover, it creates and markets software and services, mainly focusing on security and technological integration. Data encryption and protection, endpoint security, security information and event management (SIEM), server security, network security, security management, and online security are among the security solutions. Products for retail, industrial, transportation, and building automation are available from the company’s IoT sector. Each year, it invests more than 20% of its sales in R&D. Additionally, the firm has a wide range of products with the newest technology breakthroughs for the IoT industry thanks to such substantial R&D spending.