Description:Field of the Invention:
[001] This patent relates to developing an application that can be installed on any smartwatch which detects electrical signals (such as voltage spikes, irregular currents, or abnormal patterns) and quickly notifying the user for improved safety precautions and heightened awareness.

Background of the Invention:
[002] The demand for real-time monitoring and awareness of environmental and physiological conditions is growing in today's interconnected world. Electrical signals are vital in powering our devices while communicating critical information about our health and surroundings. Nonetheless, present methods used to monitor electrical signals lack the seamless immediacy, portability as well as integration needed for efficient detection and alerting purposes.
[003] Traditional methods of monitoring electrical signals often involve fixed apparatus or specific gadgets that are not conveniently obtainable by the common person. In healthcare settings, for instance, tracking electrical activity frequently necessitates unwieldy and costly equipment, thereby restricting continuous observation to clinical setups. Additionally, identifying irregularities in environmental electric waves like electromagnetic disturbances or active cables generally depends on skilled technicians wielding specialized instruments.
[004] The widespread adoption of wearable technology, specifically smartwatches, has created a promising chance to transform the way we observe and react to real-time electrical signals. These devices provide an effortless and subtle platform for incorporating sensors that can detect various forms of electric activity. By utilizing the capabilities of wearable technology, it's conceivable to give individuals immediate notifications and warnings about nearby electrical signals.

[005] To overcome these challenges, the invention "Universal Smartwatch Application for Real-Time Detection and Alerting of Electrical Signals" proposes to use smartwatches' global availability and versatility. It aims to provide a complete solution that monitors electrical signals in real-time while alerting users through an easy-to-use application utilizing a smartwatch's sensing features. Ultimately, this innovation empowers individuals with instant access to environmental health updates or safety risks through their watches.
[006] The Universal Smartwatch Application revolutionizes our daily lives by seamlessly integrating with smartwatches and utilizing advanced sensor technology to detect various electrical signals. From identifying irregular heart rhythms, alerting potential electrical hazards in the environment to providing insights on energy consumption patterns, it offers a multifaceted approach that promises to change how we interact with and respond to these signals.
[007] The Universal Smartwatch Application has created a considerable leap in the realm of wearable technology. Its ability to detect and alert electrical signals instantly make it an adaptable solution accessible by all. This ingenious creation democratizes access to significant information, expanding safety measures while improving health outcomes for individuals who gain more understanding about their environment through its use.
Summary of the Invention:
[008] Using wearable technology, especially smartwatches, the "Universal Smartwatch Application for Real-Time Detection and Alerting of Electrical Signals" is a novel approach that aims to monitor and react to electrical signals in real-time effortlessly.
[009] The essence of the innovation lies in creating a flexible and user-friendly application that can be easily installed on diverse smartwatch variants to assist users in detecting and receiving warnings about different electrical occurrences present around them. By combining with state-of-the-art sensor technology, the app can recognize signals like electromagnetic interference, abnormal pulse rates or potential electricity-related dangers.
[010] The Universal Smartwatch Application includes important characteristics such as:
? The application provides instant feedback and alerts by continuously monitoring electrical signals in the user's surroundings, detecting phenomena in real-time.
? Users have the ability to personalize alert settings according to their preferences and monitoring requirements, which guarantees timely notifications for relevant occurrences.
? The application includes features for monitoring health in addition to environmental tracking, such as identifying irregular heart rhythms or anomalous electrical patterns within the body.
? The aim of the application is to enhance the smartwatch's performance while conserving battery power and preventing excessive resource depletion.
? The interface is created with user-friendliness in mind, promoting intuitive navigation and comfortable customization of preferences.
[011] The Universal Smartwatch Application is a major breakthrough in wearable technology. It provides users with an all-encompassing system for instantaneous identification and notification of electrical signals, resulting in valuable insights regarding their environment and overall health condition. This innovation has the potential to increase safety measures, improve medical outcomes, as well as transform how we perceive our interaction with everyday electricity usage.
Description of the invention:
[012] The “Universal Smartwatch Application for Real-Time Detection and Alerting of Electrical Signals" is an innovative software program intended to convert standard smartwatches into potent instruments capable of detecting and promptly responding to electrical activities. The fundamental function of the application is to utilize the sensing features of contemporary smartwatches for identifying various electrical signals within a user's surroundings. These detected signals encompass electromagnetic interference, atypical electrical activity that infers potential risks, or physiological indications like erratic heartbeats. The application works smoothly in the backdrop, constantly scanning the surroundings for any electrical signals it detects. Once detected, it immediately informs users via customizable notifications to ensure timely awareness of any relevant events.
[013] Overview of the System: The advanced technology and sturdy development procedure formulating the smartwatch app for detecting electrical signals instantly with alerts comprises several essential components in its architecture. These include sensor integration, user interface design, signal processing algorithms, communication protocols & power management mechanisms.
[014] Detection Mechanism: The device's detection system relies on its internal sensors, specifically accelerometers, gyroscopes and magnetometers. By gathering environmental and physiological data through these mechanisms the application uses advanced signal processing algorithms; digital signal processing (DSP) combined with machine learning techniques to identify electrical signals patterns that are indicative of potential risks or threats. These methodologies have undergone rigorous testing to ensure real-world accuracy and reliability thereby validating their innovative status.
[015] Alerting Mechanism: When electrical signals are detected, the application prompts personalized alerts to be sent out in a timely manner. Various forms of notification such as visual cues on smartwatch displays, auditory alarms, haptic and vibration feedbacks are utilized for this alerting mechanism. The development process involves creating user-friendly interfaces and optimizing delivery methods that increase effectiveness while keeping users engaged throughout the experience.
[016] User Interface: The smartwatch application's user interface is meticulously designed to deliver a smooth and effortless interaction for the user. To achieve this, UI design principles like simplicity, clarity, and consistency are employed throughout its development process. The incorporation of touchscreen gestures, physical buttons and voice commands all contribute to enabling seamless navigation by users on their watches. Furthermore, iterative prototyping coupled with rigorous testing allows developers make necessary adjustments in order meet the preferences of various demographics who use it based on feedback received during test phases.
[017] Processing Data: Algorithms for processing data are designed to extract useful insights from sensor information captured in real-time. These algorithms employ a variety of techniques, such as filtering, feature extraction, pattern recognition and anomaly detection. To improve the accuracy and adaptability of detections machine learning models integrate labeled datasets during training sessions. The development process incorporates extensive testing to optimize performance levels on resource-limited smartwatch platforms efficiently achieving optimal operating conditions for these algorithms deployed within this unique context.
[018] Communication: The software is equipped to establish seamless connections with smartphones and external sensors via communication protocols like Bluetooth Low Energy (BLE). This feature enables smooth data synchronization, interaction with cloud-based services, and receiving of software updates. To ensure compatibility and interoperability across various platforms and devices, industry standards are strictly followed during the development of communication protocols.
[019] Power Management: To ensure seamless operation and extended battery life for the smartwatch application, efficient power management is of utmost importance. To achieve this goal, various techniques are employed such as adjusting sensor sampling rate, dynamic frequency scaling and sleep modes to curtail energy consumption while retaining responsiveness and functionality. From the onset of designing an application until completion, its functionalities include appropriate features for managing power efficiently which undergo revision through optimization endeavors based on performance evaluation process.
[020] Additional Features: The smartwatch application can offer extra functionalities apart from its primary features in order to enrich users’ experience. These additional characteristics include third-party integration services or APIs, customizable widgets and watch faces support, along with advanced analytics abilities that are developed based on user feedbacks research findings as well as technological advancements. This ensures the app remains revolutionary and competitive amidst constant transformations within wearable technology industry trends.
[021] The creation of a smartwatch application that can detect and alert users to real-time electrical signals necessitates the involvement of multiple fields, such as sensor technology, signal processing, user interface design, communication protocols and power management. After rigorous development processes involving testing and iteration; this cutting-edge app guarantees a seamless experience for its users while providing them with precious insights into their health status through monitoring environmental factors.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 System Architecture Diagram

[022] Fig.1 illustrates the overall architecture of the 112, depicting the diverse components involved in real-time detection and alerting of electrical signals. It visually represents the integration of 108, 110, 100, 102, 104, and 106 in the 112.
Fig. 2 Signal Detection Process Flowchart

[023] Fig.2 flowchart diagram outlines the technique of detecting and responding to electric alerts in actual-time inside the smartwatch utility. It provides a step-by-step visualization of ways sensor information is captured, processed, and analyzed to pick out pattern’s indicative of electrical signals. Additionally, it illustrates the pathway for triggering customizable signals and providing remarks to the user based totally on detected indicators.
Fig. 3 Technology Stack Diagram for Smartwatch Application

[024] This diagram demonstrates that the 200 is built on 202, which includes 204 for facts acquisition and 206 for records analysis. The application interacts with customers via the 208, communicates with other devices or servers through 210, and successfully manages power intake the use of the 212.

Claims
1. This claim highlights the smartwatch application capable of real-time detection and alerting of electrical signals. This application combines sensor technology with signal processing algorithms, which can immediately capture and analyze data on physiological and environmental factors.
2. The system as claimed in claim 1, this claim concerns the adaptability and flexibility of an alerting mechanism for a smartwatch application. Users have the option to customize the alert setting to the user’s preferences and specific monitoring needs. The application enables users to customize their alert experience for maximum efficiency and user engagement, whether modifying notification requirements, selecting the right volume for alarms or vibrations and priorities are assigned to signals
3. The system as claimed in claim 1, The significance of user interface layout in facilitating seamless interplay and configuration of settings within the smartwatch software is underlined by this claim. The application ensures a user-friendly experience by using intuitive design principles and support for various input methods such as touch screen gestures, physical buttons or voice commands.
4. The system as claimed in claim 1, the application reduces energy consumption while retaining responsiveness and capability through the use of superior strength control strategies including sensor sampling charge adjustment and dynamic voltage and frequency scaling.
5. This claim also refers to a further feature of the smartwatch application, namely its ability to receive and analyses user health indicators. The application is able to provide invaluable information about the user's health status when it detects abnormalities in his or her physiology, e.g. irregular heartbeat.
Dated this 21st day of April 2024
Signature:
Applicants (s): Dr. Ashwani Sharma et. al.

ABSTRACT
UNIVERSAL SMARTWATCH APPLICATION FOR REAL-TIME DETECTION AND ALERTING OF ELECTRICAL SIGNALS

[025] The "Universal Smartwatch Application for Real-Time Detection and Alerting of Electrical Signals" marks an advancement in technology offering a comprehensive solution for monitoring and responding to electrical events in real-time. By utilizing the sensors found in smartwatches this application can detect a range of electric signals, including environmental risks and health indicators. Through alerts users receive notifications tailored to their preferences ensuring prompt responses to potential threats or anomalies. Moreover, the inclusion of a health tracking feature provides insights, into an individual’s well-being promoting overall health. With an intuitive interface design and efficient power management system the application delivers functionality and extended battery life ensuring users unparalleled convenience and security when monitoring their surroundings and health in real time.

Accompanied Drawing [FIG 1-3]
Dated this 21st day of April 2024

Signature:
Applicants (s)
Dr. Ashwani Sharma et. al.

, Claims:1. This claim highlights the smartwatch application capable of real-time detection and alerting of electrical signals. This application combines sensor technology with signal processing algorithms, which can immediately capture and analyze data on physiological and environmental factors.
2. The system as claimed in claim 1, this claim concerns the adaptability and flexibility of an alerting mechanism for a smartwatch application. Users have the option to customize the alert setting to the user’s preferences and specific monitoring needs. The application enables users to customize their alert experience for maximum efficiency and user engagement, whether modifying notification requirements, selecting the right volume for alarms or vibrations and priorities are assigned to signals
3. The system as claimed in claim 1, The significance of user interface layout in facilitating seamless interplay and configuration of settings within the smartwatch software is underlined by this claim. The application ensures a user-friendly experience by using intuitive design principles and support for various input methods such as touch screen gestures, physical buttons or voice commands.
4. The system as claimed in claim 1, the application reduces energy consumption while retaining responsiveness and capability through the use of superior strength control strategies including sensor sampling charge adjustment and dynamic voltage and frequency scaling.
5. This claim also refers to a further feature of the smartwatch application, namely its ability to receive and analyses user health indicators. The application is able to provide invaluable information about the user's health status when it detects abnormalities in his or her physiology, e.g. irregular heartbeat.