At the most basic level, we hope that buildings (whether simple accommodation or modern reinforced glass structures) can provide residents with a comfortable space. The Internet of Things (IoT) transforms people’s perceptions of buildings and makes people realize that it is not just household “containers†but there are more possibilities, so that residents can minimize operating expenses and become more environmentally friendly. . Building a smart building requires intelligent lighting, HVAC, fire alarms, building safety devices, and even elevator systems, and these factors need to be related to each other and share intelligence, so that the building can respond quickly when there is a demand from the household and the grid. Although the operating costs of smart homes or smart buildings may be low, they can save energy and costs for their long-term owners. However, in the short term, investors still need to deploy sensors with networks, gateways, and cloud computing capabilities. smart system. Visual doorbells are 10 times more expensive than traditional doorbells; smart thermostats are also more expensive than traditional thermostats. Why are customers willing to pay higher fees? If you are considering home automation, are you willing to make your family smarter? Obviously, we are more willing to choose to pay higher fees to achieve home intelligence. One reason: Technology makes the Internet of Things more realistic and affordable. Its combination of intelligent sensing of various physical parameters and the connectivity of intelligent thermostats, video doorbells, and available smart phones enables consumers to be surrounded not only by smart sensors and controls such as electronic locks and video doorbells, but also at home. It allows them to manage smart products more effectively than before. Reason two: Familiarity. Most consumers think that scheduling their own sprinkler system is a very challenging task. As smartphones go deeper into consumer life, using their control sprinkler systems is much easier than using a man-machine interface that is disrepaired for a long period of time to operate a sprinkler system. Reason three: convenience. Consumers can even control home appliances when they are on the go, open a garage door remotely, or use an application software to send smart lock security certifications. The down payment for the home automation suite can save the household money and reduce third-party daily monitoring costs by providing leak detectors, door and window sensors, and self-monitoring cameras. When smart equipment enters a business intelligence building, an important design factor that often needs to be considered is compliance with Article 24 of the California Energy Commission's energy-saving regulations. Today, the energy consumption of commercial buildings in the United States accounts for 40% of the total energy consumption in the United States. The most significant energy-consuming device is HVAC, namely heating, ventilation and air conditioning (HVAC). Compared to the traditional HAVC plan, controlling ventilation based on population needs can save energy by 15-20%. Adjusting the interior lighting of a building based on occupancy rate and external incident sunlight (daylight harvesting technology) can significantly reduce the energy footprint of the building. Imagine using Bluetooth® low-power pointer navigation to find meeting rooms across labyrinth-like office areas without wasting a lot of time getting lost; in the same situation, you don't have to waste time waiting for the elevator when you need to take the elevator. It has already waited there, or it has been programmed in advance to the floor you want to go. Imagine intelligent sensors that can detect HVAC and elevator performance and accurately estimate predictive maintenance, minimizing downtime. Due to the continuous processing and adaptation of buildings, the enthusiasm of all households has increased. More and more sensor network nodes require battery operation. If the battery has a long service life, frequent replacement of the battery and maintenance costs will be prevented. To overcome this problem, we must implement a solution that encompasses the entire system approach, using low-power analog or micro-power simulations for sensor operation. Low-power management requires extremely low management skills and fast wake-up connectivity solutions. Performs complex operations such as fast Fourier transforms and then returns to sleep mode. Many technologies from TI and other companies show us solutions for creating smart homes or buildings. Some samples include: IoT Gateway: Includes multi-sensor nodes such as a carbon monoxide detector, occupancy detection, temperature and humidity sensor nodes, as well as button batteries (10-year service life) and electronic locks with four AA batteries (5-year service life). · Use IoT gateways to transfer data from dual-band Sub-1Ghz and Bluetooth® low-energy sensors to the cloud: Connect one, two, or up to 50 sensors to the cloud over a remote Sub-1GHz wireless network. Ideal for industrial and consumer applications such as building controls and asset tracking. Lower than the 1Ghz sensor to the Cloud Industrial IoT Gateway Reference Design, it features a TISitaraTM AM335x processor and a SimplelinkTM sub-1GHz CC1310/CC1350 device. ·Bluetooth5 ready? Firstly, the Bluetooth5 standard will be introduced. It uses the sample to display the 2Mbps mode, the online update speed is twice faster than Bluetooth4.2, and TI's SimplelinkTMBluetooth low-power wireless MCU is improved for medical, health care, clothing, remote control, and building automation. Responsiveness to IoT applications such as automotive (body control and lighting, entertainment).