VIRTUAL AR INTERFACES FOR CONTROLLING IOT DEVICES USING MOBILE DEVICE ORIENTATION SENSORS

Organization Name

Unknown Organization

Inventor(s)

Lei Zhang of Ann Arbor MI (US)

Youjean Cho of New York NY (US)

Daekun Kim of Santa Monica CA (US)

Ava Robinson of Solana Beach CA (US)

Yu Jiang Tham of Seattle WA (US)

Rajan Vaish of Beverly Hills CA (US)

[[:Category:Andrés Monroy-hern�ndez of Seattle WA (US)|Andrés Monroy-hern�ndez of Seattle WA (US)]][[Category:Andrés Monroy-hern�ndez of Seattle WA (US)]]

VIRTUAL AR INTERFACES FOR CONTROLLING IOT DEVICES USING MOBILE DEVICE ORIENTATION SENSORS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240338071 titled 'VIRTUAL AR INTERFACES FOR CONTROLLING IOT DEVICES USING MOBILE DEVICE ORIENTATION SENSORS

• • Simplified Explanation:**

The patent application describes virtual reality interfaces that use the inertial measurement unit (IMU) of a portable electronic device to control connected IoT devices through a virtual rotational interface.

• • Key Features and Innovation:**
• Utilizes the IMU of a portable electronic device to control IoT devices.
• Allows users to adjust features of connected IoT products by rotating their device.
• Presents a virtual rotational interface on the display in an AR environment.
• Detects device orientation in the physical environment and adjusts the virtual interface accordingly.
• Sends control signals to IoT products based on the slider position.

• • Potential Applications:**
• Smart home automation
• Industrial IoT control systems
• Healthcare monitoring devices
• Gaming and entertainment applications
• Augmented reality experiences

• • Problems Solved:**
• Simplifies the control of IoT devices through intuitive gestures.
• Enhances user experience by providing a virtual interface in an AR environment.
• Enables precise adjustments of connected IoT products using device rotation.

• • Benefits:**
• User-friendly interface for controlling IoT devices.
• Seamless integration of AR technology with IoT applications.
• Improved accuracy and efficiency in adjusting IoT product features.
• Enhanced user engagement and interaction with connected devices.

• • Commercial Applications:**
• "IMU Control Application for IoT Devices: Revolutionizing User Interaction and Control"
• Potential commercial uses in smart home automation systems, industrial IoT solutions, and healthcare monitoring devices.
• Market implications include increased demand for AR-enabled IoT control solutions and enhanced user experiences in various industries.

• • Questions about Virtual Rotational Interface for IoT Control:**

1. How does the IMU technology improve the control of IoT devices compared to traditional methods? 2. What are the security implications of using virtual interfaces to control connected IoT products?

Original Abstract Submitted

described are virtual ar interfaces for generating a virtual rotational interface for the purpose of controlling connected iot devices using the inertial measurement unit (imu) of a portable electronic device. the imu control application enables a user of a portable electronic device to activate a virtual rotational interface overlay on a display and adjust a feature of a connected iot product by rotating a portable electronic device. the device imu moves a slider on the virtual rotational interface. the imu control application sends a control signal to the iot product which executes an action in accordance with the slider position. the virtual rotational interface is presented on the display as a virtual object in an ar environment. the imu control application detects the device orientation (in the physical environment) and in response presents a corresponding slider element on the virtual rotational interface (in the ar environment).