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Traditional Finding VS IOT(Internet of Things) Finding

Traditional Finding VS IOT(Internet of Things) Fin...

  • Traditional finding and IoT (Internet of Things) finding are two different approaches to locating or tracking objects or information. Let's explore the differences between these two methods:

  • Traditional Finding

    1. Definition: Traditional finding refers to the conventional methods or approaches used to locate or track objects without the use of advanced technology or the internet.

    2. Human-Centric: Traditional finding typically relies on human-based methods, such as using physical maps, or following signs and landmarks to get assets.

    3. Limited Connectivity: Traditional finding methods do not require internet connectivity or reliance on smart devices. Instead, they rely on human senses, knowledge,book.

    4. Scope: Traditional finding is generally suited for local or familiar environments where people can rely on their own knowledge or ask others for directions.

    5. Examples: Traditional finding methods include asking for directions from people, using paper maps, following signs, using physical landmarks, or memorizing familiar routes.

  • IoT (Internet of Things) Finding:

    1. Definition: IoT finding refers to the use of interconnected smart devices and sensors to locate or track objects or information through the internet.

    2. Device-Centric: IoT finding relies on smart devices, sensors, and interconnected technologies to gather, process, and transmit data. It involves devices communicating with each other over the internet to provide location or tracking information.

       -LED tags typically use small LED panels or individual LEDs to form alphanumeric characters, symbols, or graphics. These displays can be single-color (such as red, green, or amber) or multi-color, allowing for greater flexibility in presenting information.

    3. Enhanced Connectivity: IoT finding requires internet connectivity and relies on smart devices like smartphones, GPS devices, beacons, or other IoT-enabled gadgets.

    4. Wide Scope: IoT finding has a broader scope as it can provide location-based services and tracking across various geographical areas, indoors, and outdoors.

    5. Examples: IoT finding methods include GPS-based navigation systems in cars, location services on smartphones, asset tracking using IoT tags, and real-time tracking of fleet vehicles or packages.

  • In summary, traditional finding relies on human-based methods and physical tools, and it is suitable for local and familiar environments. On the other hand, IoT finding leverages smart devices, sensors, and the internet to provide location-based services, tracking, and real-time information across broader geographical areas. IoT finding offers enhanced connectivity, automation, and scalability, making it suitable for various applications, including asset tracking, logistics, navigation, and smart city solutions.

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RFID Ear Tag for cattle to make it into finance asset and loan tracking

RFID Ear Tag for cattle to make it into finance as...

  • Fully automatic identification: The animal identification code is realized, so that the staff can easily obtain the growth, disease, quarantine and transportation status of an animal as long as the handheld device of the system is used.

  • Efficient traceability: The system tracks the entire life cycle of the animal, records each link, and centrally backs up the data in the information management center. If an event occurs, the system will automatically find the source of the animal. It is convenient for managers to analyze.

  • Convenience of management and control: the system's fully electronic centralized data management makes the search of a large amount of data completed by the server, saving a lot of manpower and events, and speeding up the response to the event.

  • Data security: Adopting a new generation of RFID electronic tags, which are specially designed for animals, with fast identification response time and low average failure rate, which can ensure the safety, timeliness and stability of the tag identification process. In addition, we The high-performance and high-fault-tolerance system server is adopted, which can ensure the high stability, security and network transmission speed of the server, thereby realizing the real-time transmission of the system and ensuring the timeliness of the information.

  • Improve management level: centralized management, distributed control; standardized supervision and management, reduce unnecessary links, so that the first incident of an emergency can reach the top management, so that the incident can be handled in a timely manner.

Applications of RFID in livestock management

Applications of RFID in livestock management

  • Fully automatic identification: The animal identification code is realized, so that the staff can easily obtain the growth, disease, quarantine and transportation status of an animal as long as the handheld device of the system is used.

  • Efficient traceability: The system tracks the entire life cycle of the animal, records each link, and centrally backs up the data in the information management center. If an event occurs, the system will automatically find the source of the animal. It is convenient for managers to analyze.

  • Convenience of management and control: the system's fully electronic centralized data management makes the search of a large amount of data completed by the server, saving a lot of manpower and events, and speeding up the response to the event.

  • Data security: Adopting a new generation of RFID electronic tags, which are specially designed for animals, with fast identification response time and low average failure rate, which can ensure the safety, timeliness and stability of the tag identification process. In addition, we The high-performance and high-fault-tolerance system server is adopted, which can ensure the high stability, security and network transmission speed of the server, thereby realizing the real-time transmission of the system and ensuring the timeliness of the information.

  • Improve management level: centralized management, distributed control; standardized supervision and management, reduce unnecessary links, so that the first incident of an emergency can reach the top management, so that the incident can be handled in a timely manner.

  • System scalability: Considering the future development trend and the promotion of information construction, the system design can easily realize the expansion of the system.

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