Smart clothing system and methods
Abstract
The embodiments disclose a smart clothing system includes a multi-team sports jersey shirt including fabric sections displaying multiple sports team colors, logos, player numbers, names, and commemorative insignia, integrated within the fabric are a plurality of sensors including vital signs sensors, temperature sensors, and GPS sensors, and a plurality of actuation devices including illumination devices, vibration modules, speakers, and thermal conductive threads, a mobile device wirelessly communicates with the sensors and actuation devices using Bluetooth® protocol, a smart application on the mobile device provides bidirectional data communication and includes a voice command device to control the operation of the smart jersey components, the smart application is configured to receive real-time data, issue alerts, and display fantasy sports and live event updates through visual, audible, or tactile feedback, enhancing user interaction with live sporting events.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A smart clothing system, comprising:
a piece of smart clothing having fabric; a plurality of sensors coupled to the piece of smart clothing; a plurality of actuation devices coupled to the piece of smart clothing and the sensors of the smart clothing; a mobile device configured to wirelessly communicate with the plurality of sensors and the plurality of actuation devices of the smart clothing with bidirectional send and receive digital signals; and a smart application operating on the mobile device and having a control command device, wherein the smart application is configured to provide status data of the plurality of sensors and the plurality of actuation devices, and the control command device is configured to control the plurality of sensor and the plurality actuation devices.
2 . The smart clothing system of claim 1 , further comprising an artificial intelligence and machine learning system coupled to the smart application configured to collect static and dynamic data from the plurality of sensors and remote server and allow a user of the piece of smart clothing to interact with the smart clothing via the smart application.
3 . The smart clothing system of claim 2 , wherein the artificial intelligence and machine learning system is further configured to learn preferred settings and actions of the plurality of sensors and the plurality of actuation devices based on the static and the dynamic data to automatically control the plurality of sensors and the plurality of actuation devices.
4 . The smart clothing system of claim 1 , further comprising a transceiver coupled to the fabric of the smart clothing configured to send and receive static and dynamic data.
5 . The smart clothing system of claim 2 , wherein the artificial intelligence and machine learning system is further configured to convert the learned preferred settings into digital signal instructions to transmit to the smart clothing to actuate changes in the plurality of actuation devices settings.
6 . The smart clothing system of claim 5 , further comprising a voice command device configured to allow the user to use artificial intelligence and machine learning digital signal instructions to change the plurality of actuation device settings.
7 . The smart clothing system of claim 1 , wherein the plurality of sensors includes GPS sensors configured to determine the location of the smart clothing.
8 . A smart clothing system, comprising:
a piece of smart clothing having fabric; a plurality of sensors coupled to the piece of smart clothing and the fabric of the smart clothing; a plurality of actuation devices coupled to the piece of smart clothing and the sensors of the smart clothing; wherein the plurality of actuation devices includes a plurality of illumination devices located on the smart clothing; a mobile device configured to wirelessly communicate with the plurality of sensors and the plurality of actuation devices of the smart clothing with bidirectional send and receive digital signals; and a smart application operating on the mobile device and having a voice command device, wherein the smart application is configured to provide status data of the plurality of sensors and the plurality of actuation devices, and the voice command device is configured to control the plurality of sensor and the plurality actuation devices.
9 . The smart clothing system of claim 8 , further comprising an artificial intelligence and machine learning system coupled to the smart application configured to collect static and dynamic data from the plurality of sensors and remote server and allow a user of the piece of smart clothing to interact with the smart clothing via the smart application.
10 . The smart clothing system of claim 9 , wherein the artificial intelligence and machine learning system is further configured to learn preferred settings and actions of the plurality of sensors and the plurality of actuation devices based on the static and the dynamic data to automatically control the plurality of sensors and the plurality of actuation devices.
11 . The smart clothing system of claim 8 , further comprising a transceiver coupled to the fabric of the smart clothing configured to send and receive static and dynamic data.
12 . The smart clothing system of claim 9 , wherein the artificial intelligence and machine learning system is further configured to convert the learned preferred settings into digital signal instructions to transmit to the smart clothing to actuate changes in the plurality of actuation devices settings.
13 . The smart clothing system of claim 12 , wherein the voice command device is further configured to allow the user to cancel artificial intelligence and machine learning system digital signal instructions to change the plurality of actuation devices settings.
14 . The smart clothing system of claim 8 , wherein the plurality of sensors coupled to the fabric of the smart clothing include GPS sensors configured to determine the location of the smart clothing.
15 . A smart clothing system, comprising:
a piece of smart clothing having fabric; a plurality of sensors coupled to the piece of smart clothing and the fabric of the smart clothing; a plurality of actuation devices coupled to the piece of smart clothing and the sensors of the smart clothing; wherein the plurality of actuation devices includes a plurality of illumination devices located on the smart clothing; a plurality of fiber optic devices coupled to the fabric of the smart clothing; a mobile device configured to wirelessly communicate via a Bluetooth® protocol with the plurality of sensors and the plurality of actuation devices of the smart clothing with bidirectional send and receive digital signals; and a smart application operating on the mobile device and having a control command device, wherein the smart application is configured to provide status data of the plurality of sensors and the plurality of actuation devices, and the control command device is configured to control the plurality of sensor and the plurality actuation devices.
16 . The smart clothing system of claim 15 , further comprising an artificial intelligence and machine learning system coupled to the smart application configured to collect static and dynamic data from the plurality of sensors and remote server and allow a user of the piece of smart clothing to interact with the smart clothing via the smart application.
17 . The smart clothing system of claim 16 , wherein the artificial intelligence and machine learning system is further configured to learn preferred settings and actions of the plurality of sensors and the plurality of actuation devices based on the static and the dynamic data to automatically control the plurality of sensors and the plurality of actuation devices.
18 . The smart clothing system of claim 15 , further comprising a transceiver coupled to the fabric of the smart clothing configured to send and receive static and dynamic data.
19 . The smart clothing system of claim 16 , wherein the artificial intelligence and machine learning system is further configured to convert the learned preferred settings into digital signal instructions to transmit to the smart clothing to actuate changes in the plurality of actuation devices settings.
20 . The smart clothing system of claim 15 , wherein the plurality of illumination devices includes at least one of the plurality of fiber optic devices configured to display colored lighting based on smart application commands.Cited by (0)
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