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IoT Security for Commercial Buildings
| November 24, 2019
From embossed carrier tape to moisture barrier bags, Advantek's products play an important role in the transportation and handling of semiconductors, medical components and other consumer goods.
Article | February 25, 2020
IoT technologies offer many remarkable benefits. They can make complicated tasks, such as tracking a fleet of thousands of vehicles, monitoring and adjusting manufacturing processes or automating a smart home or office simpler, easier and more cost-effective than ever before. By inviting IoT devices into our homes, workplaces and public spaces, however, we also expose new attack surfaces. When we assign an IoT system to be responsible for a critical task or trust it to monitor sensitive information in our most private spaces, we want to ensure that the system can be trusted. For this reason, it is vital that security best practices are applied at all stages when developing an IoT solution.
Both Zigbee® and Bluetooth® wireless protocols are widely used for local communications in Internet of Things (IoT) applications, and there are some trade-offs to review in choosing the right one for your application. Each protocol has unique strengths that guide which solution to implement when designing a new network. In certain situations, one protocol will be a better fit than the other, though sometimes the right solution is to implement both together to take advantage of their combined strengths, as we will discuss in this article. To better understand these IoT protocol options, let's take a look at the advantages and limitations of Zigbee, followed by the same for three different "flavors" of Bluetooth: Classic, BLE, and BT Mesh. This will help explain the trade-offs and show some use cases for each, so that you can choose the optimal protocol for your IoT application - be it a smart city, industrial IoT, digital signage or other connected technology use case.
Internet of Things, generally known as IoT, is a network of objects or things. Embedded sensors help connect and exchange data with other objects via the internet. IoT is often related to the concept of smart homes, including devices like home security systems, cameras, lighting, refrigerators, etc. With all this data being transmitted over the internet, it is easy for the data to be modified, deleted, or stolen, which can lead to an invasion, theft, etc.
IoT forensics plays a vital role in maintaining the integrity and security of the data being transmitted. Join us as we explore this fascinating web of devices and how you can get started in this vibrant field of forensics.
The survey data I’m referring to comes from a study conducted by the Eclipse Foundation about the adoption of commercial Internet of Things (IoT) technology. The aim of the study was to get a better understanding of the IoT industry landscape by identifying the requirements, priorities, and challenges faced by organizations deploying and using commercial IoT technologies. More than 350 respondents from multiple industries responded, with about a quarter of respondents coming from industrial production businesses. While this survey was not solely focused on the manufacturing and processing industries, its results reflect the general business community’s IoT adoption at the end of 2019. As such, it is a pre-COVID-19 snapshot of IoT adoption.
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