INTERNET OF THINGS APPLIANCE PROVIDING EXTENDED-CAPABILITY MESSAGING

Organization Name

Unknown Organization

Inventor(s)

David J. Mishelevich of Playa del Rey CA (US)

INTERNET OF THINGS APPLIANCE PROVIDING EXTENDED-CAPABILITY MESSAGING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240039753 titled 'INTERNET OF THINGS APPLIANCE PROVIDING EXTENDED-CAPABILITY MESSAGING

Simplified Explanation

The abstract describes a patent application for an appliance that enables effective communication in an Internet of Things (IoT) environment. The appliance can message device status, actions taken, recommendations, or other information to relevant parties, including instructions for device execution. Traditional messaging methods like texting and email have limitations in terms of audio output and automatic relaying or execution instructions for target devices. The present invention overcomes these limitations by using low power wide area network (LPWAN) or normal power wide area network (NPWAN) protocols to communicate with other IoT devices and servers. The extended-capability messaging provided by the appliance can include artificial intelligence and can be configured in a secure version.

• The patent application describes an appliance that facilitates communication in an IoT environment.
• The appliance can send messages about device status, actions, recommendations, or other information to relevant parties.
• Traditional messaging methods like texting and email are limited in terms of audio output and automatic relaying or execution instructions.
• The appliance uses LPWAN or NPWAN protocols to communicate with other IoT devices and servers.
• The messaging capabilities of the appliance can include artificial intelligence and can be configured in a secure version.

Potential applications of this technology:

• Smart homes: The appliance can communicate with various IoT devices in a smart home, providing updates, recommendations, and instructions for device execution.
• Industrial automation: The appliance can be used in industrial settings to communicate with sensors, actuators, and central servers, enabling efficient monitoring and control of processes.
• Healthcare: The appliance can be utilized in healthcare settings to send messages about patient monitoring, medication reminders, and instructions for medical devices.

Problems solved by this technology:

• Limited messaging capabilities: Traditional messaging methods like texting and email do not provide automatic audio output or the ability to relay or contain execution instructions for target devices. The appliance overcomes these limitations.
• Inefficient communication in IoT environments: The appliance enables effective communication between IoT devices, sensors, actuators, and servers, improving overall efficiency and coordination.

Benefits of this technology:

• Enhanced messaging capabilities: The extended-capability messaging provided by the appliance allows for more comprehensive and efficient communication in IoT environments.
• Improved automation and control: The ability to send instructions for device execution enables better automation and control of IoT devices and processes.
• Secure communication: The appliance can be configured in a secure version, ensuring the confidentiality and integrity of the communicated messages.

Original Abstract Submitted

to effectively operate in an increasingly prolific internet of things environment one best has the ability to message, whether messaging device status, actions taken, recommendations for actions or other information to those with a need to know or containing instructions for device execution. traditional messaging of various types such as texting and e-mail typically are limited in that they can neither provide automatic audio output at the recipient nor can they may be automatically relayed or contain execution instructions for target devices. the present invention is an appliance that communicates with other iot devices such as sensors and actuators and regional or central servers using low power wide area network (lpwan) or normal power wide area network (npwan) protocols that provides extended-capability messaging provides these capabilities that can include artificial intelligence and optionally configured in a secure version.