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IoT Data Logger
An IoT data logger for measuring the pressure of formwork walls during concrete pouring is a powerful tool for ensuring the structural integrity of concrete structures. It works by monitoring the pressure exerted on formwork walls during the pouring of concrete and storing the data in the cloud for analysis and reporting. ​ The IoT data logger consists of load cells that are placed on the formwork walls to measure the pressure exerted by the concrete during pouring. The sensors are connected to a wireless gateway that collects the data and sends it to the cloud. The data is then processed and analyzed by software that provides real-time insights into the pressure exerted on the formwork walls. ​ This IoT data logger is designed to monitor the pressure exerted on formwork walls in real time, providing insights into the behavior of the concrete during pouring. It can help detect potential problems such as excessive pressure or inadequate support, allowing for corrective action to be taken before any damage occurs.
Construction site safety with AI cameras.
At INOFTSYS, we are developing advanced computer vision solutions for construction site safety. Our AI-powered cameras offer key features such as PPE (Personal Protective Equipment) detection, face recognition, virtual fencing, and human detection, all tailored to meet the specific needs of our customers.
Construction site safety with AI cameras.
At INOFTSYS, we are developing advanced computer vision solutions for construction site safety. Our AI-powered cameras offer key features such as PPE (Personal Protective Equipment) detection, face recognition, virtual fencing, and human detection, all tailored to meet the specific needs of our customers.
Conveyor belt RFID object sorting systems
Conveyor belt RFID object sorting systems are automated sorting systems that use radio-frequency identification (RFID) technology to sort objects based on their unique identifiers. These systems consist of a conveyor belt, RFID tags attached to the objects, RFID readers, and sorting mechanisms. ​ Here are the basic steps involved in a conveyor belt RFID object sorting system: Object tagging: RFID tags are attached to the objects that need to be sorted. Each tag contains a unique identifier that is associated with a specific object. Conveyor belt movement: The objects are placed on the conveyor belt and move along it towards the sorting mechanism. RFID tag reading: RFID readers are positioned along the conveyor belt to read the unique identifiers on the RFID tags attached to the objects. Sorting: Based on the unique identifiers, the sorting mechanism diverts each object to its designated output location. This can be done using various mechanisms such as gates, air jets, or robotic arms. Data collection and analysis: The RFID system records data about each object's unique identifier and sorting location. This data can be analyzed to optimize the sorting process and identify any potential issues. ​ Overall, conveyor belt RFID object sorting systems can help automate and streamline the sorting process, increase efficiency, reduce errors, and save time and labor costs. These systems are widely used in industries such as logistics, manufacturing, and distribution, where fast and accurate sorting is essential for smooth operations.