Building an IOT applications

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sorry we are not native speakers, so the content may not be clear. We just want to share with you!

What is IOT applications?

IoT applications are forecasted to use large schools in the coming years.
The Internet of Things, or IoT, is an interconnected system of computing devices, machines, objects, animals, or people that are provided with unique identifiers (UIDs) and the ability to transmit data. over the network without requiring human-to-human or human-to-computer interaction, which is the process of building an iot system.

How does IoT work?

The IoT ecosystem consists of internet-enabled smart devices that use embedded systems, such as processors, sensors, and communication hardware, to collect, send, and act on the data they obtained from their environment. IoT Devices share sensor data they collect by connecting to another IoT Gateway or edge device, where the data is sent to the Cloud. for analysis or local analysis. These devices sometimes communicate with other related devices and act on the information they receive from each other. Devices do most of the work without human intervention, although people can interact with the devices – for example, when setting them up, provide them with a way to access data.

Advantages and disadvantages of IoT applications

List of IOT applications

List of Data Science Tools

Some advantages of IoT

The ability to access information from anywhere, anytime on any device.
Improved communication between connected electronic devices.
Transferring data packets over a connected network saves time and money.
Automating tasks improves the service quality of the business and reduces human intervention.

Some disadvantages of IoT

As the number of connected devices increases and more information is shared between devices, so does the chance that hackers can steal confidential information.
Businesses may eventually have to deal with large numbers — maybe even millions — of IoT devices, and collecting and managing data from all of those devices will be a challenge.
If there is an error in the system, it is likely that any connected devices will be damaged.
Since there is no international standard of compatibility for IoT, it is difficult for devices from different manufacturers to communicate with each other.

What can we do?

Together with its experienced team, EPCB can build a specialized IoT applications according to the needs of each customer. Consists of:

Building a centralized monitoring and control environment capable of decentralization

Real-time system monitoring via Web Application/Smartphone (AWS IoT Core, AWS DynamoDB).
Long-term and secure storage of critical data (AWS DynamoDB, AWS S3).
Decentralize and limit user access (AWS API Gateway, AWS Cognito).
Remote software update (AWS S3).

System design according to automation scenarios.

Automatic script according to time daily/monthly/yearly.
Automatic script according to sensor threshold, preset events.

Design electronic circuits and structures to collect information from machines and the environment.

Sensor design suitable for different purposes.
Collect sensors over wired connections (Analog, Modbus, Ethernet RS485, RS232, I2C, SPI, …).
Collect sensors over wireless connections (Wifi, Zigbee, Bluetooth, LoRa, RF, …)

Advice on choosing the right sensor.

Design sensors according to industry standards.
Consulting using quality sensors from reputable brands.

Long-term maintenance of the system after deployment.

Maintain stable running system.
Technology transfer.
Training personnel in charge of operating the system at the facility.

Applying IoT system to monitoring swiftlet house

Some functions of the system

Change the sound of the bird’s nest remotely, schedule the hourly sound change.
Download bird sounds from your computer or phone to your device.
Secure nest sound on the device.
Remotely monitor the operating status of the amplifier and speakers.