VOICE ASSISTANT SYSTEM FOR DESKTOP COMPUTING WITH MESSAGING CAPABILITIES

Abstract

Vox Buddy represents a groundbreaking advancement in desktop voice assistant systems, seamlessly integrating messaging functionalities into the desktop computing environment to elevate user productivity and streamline communication workflows. Unlike traditional desktop voice assistants, Vox Buddy empowers users to send messages effortlessly via leading messaging platforms such as WhatsApp and email, leveraging the power of voice commands. Through cutting-edge voice recognition and natural language processing technologies, Vox Buddy revolutionizes the messaging experience, enabling users to compose and send messages with unparalleled ease and efficiency, thereby reducing reliance on manual input and external applications. This transformative innovation heralds a new era of desktop computing, where communication barriers are shattered, and productivity reaches unprecedented heights. 4 Claims & 2 Figures

Specification

Description:VOICE ASSISTANT SYSTEM FOR DESKTOP COMPUTING WITH MESSAGING CAPABILITIES
Field of the Invention
Vox Buddy is a desktop voice assistant system designed to enhance user productivity by integrating messaging capabilities directly into the desktop computing environment. This invention relates to the field of natural language processing and voice recognition technology, particularly in the context of desktop-based voice assistants.
Objectives of the Invention
Vox Buddy seeks to revolutionize the desktop computing experience by seamlessly integrating messaging capabilities into a voice assistant system. Its primary objectives encompass facilitating efficient communication, enhancing user productivity, improving user experience, enabling remote communication, driving innovation in voice assistant technology, and ultimately, transforming the way users interact with desktop environments.
Background of the Invention
In recent years, voice assistant technology has witnessed a surge in popularity, finding widespread adoption across a myriad of devices and platforms, ranging from smartphones to smart speakers. However, while these voice assistants excel in certain tasks, such as scheduling appointments and conducting web searches, their functionality on desktop computers has remained somewhat limited. Traditional desktop voice assistants have primarily focused on providing assistance with productivity tasks, such as setting reminders and managing calendars. While some have offered basic messaging functionalities, such as sending text messages or initiating voice calls, the seamless integration of popular messaging platforms like WhatsApp into desktop voice assistants has remained largely unexplored.
The intelligent automated assistant system in (US2020/10706841B2) interacts with the user through integrated, conversational natural language dialogue and summons other services as necessary to acquire information or execute various tasks. You can deploy the system on various platforms such as the web, email, smartphones, or any combination thereof. In one embodiment, the system relies on interconnected domains and tasks, leveraging supplementary functionalities enabled by external services the system can interact with.
A gateway device (US2022/11329840B2) that offers and administers interactive user voice-controlled home automation services across many endpoint devices linked to it. Interfaces facilitate communication between the gateway device and at least one endpoint device situated within a user's premises and data networks. A processor connected to the interfaces and programming in the server executes a communications program to configure the gateway for communication with endpoint devices, associate endpoint devices with the gateway, and interact with a remote server to access service management center applications. A home automation control program facilitates operation through a home automation controller integrated within the gateway, utilizing voice automation messaging protocols that respond to voice commands. This enables interactive voice control of endpoint devices and automates functions related to those devices.

A method entails the modular storage of components related to network service plans, as well as their subsequent provisioning. To facilitate the customization of service plan offerings or other controls, a sandbox system may receive a portion of a service design system's functionalities, as explained in (US2020/10869199B2).
In US2022/11303686B2, one embodiment delineates a data processing system that includes a memory device for storing instructions and one or more processors for executing the instructions stored in the memory device. The instructions allow one or more processors to create a virtual assistant that accepts voice input from a media playback device linked to the data processing system. The virtual assistant, utilizing one or more processors, is designed to receive a voice command at the media playback device to schedule an event, subsequently identify the user account linked to the voice command, ascertain the command type based on contextual information related to the voice command, and designate a target device for the media playback scheduled for the event.
Furthermore (US2023/11676601B2), One embodiment describes a system for tracking and activating a voice assistant, comprising a tracking component, a wake component, a listening component, and a link component. The tracking component monitors the availability of numerous voice assistant services. The wake component identifies several wake words, each of which corresponds to a specific voice assistant service among the available services. We design the listening component to receive sounds and identify a primary wake word from a set of wake words, which corresponds to a specific voice assistant service within a range of voice assistant services. The link component establishes a voice connection with the primary voice assistant service to facilitate user voice input.
The current disclosure outlines a vehicle incorporating one or more processing modules. The design of these modules connects and interacts with the various buses in the car, facilitating information transfer among the various components. Additionally, we modularize each processing module to facilitate the addition and replacement of other functional modules, both currently and in the future. These functional modules can serve as separate vehicle components. Each processing module may delegate tasks to other modules based on its operational status, processing capacity, or external control. The many processing modules make it easier to set up a middleware control point for the vehicle. They do this by using redundancy in their processing and putting an emphasis on safety and security in their uses, as explained in (US2018/10020995B2).
With the modern workplace increasingly relying on digital communication tools for collaboration and coordination, there is a growing recognition of the need for desktop voice assistant systems that offer robust messaging capabilities. In response to this demand, Vox Buddy emerges as a pioneering solution, bridging the gap between desktop computing and efficient communication.
By seamlessly integrating messaging functionalities into the desktop environment, Vox Buddy aims to enhance the user experience and streamline communication workflows. Its innovative approach not only addresses the limitations of existing desktop voice assistants but also sets a new standard for voice assistant technology in the workplace.
Recognizing the transformative potential of Vox Buddy in facilitating seamless communication in the modern workplace, it represents a significant advancement in the field of voice assistant technology, catering to the evolving needs of users in an increasingly interconnected world.
Summary of the Invention
Vox Buddy is a revolutionary voice assistant system designed specifically for desktop computing environments. Unlike conventional desktop voice assistants, Vox Buddy offers advanced messaging capabilities, allowing users to send messages via WhatsApp and emails using voice commands. By leveraging the power of voice recognition and natural language processing technologies, Vox Buddy simplifies the process of sending messages while minimizing the need for manual input or interaction with external applications.
Detailed Description of the Invention
Vox Buddy is an advanced desktop voice assistant system that was developed with the intention of bringing about a change in the nature of communication inside the desktop computing environment. It consists of a number of interrelated components that make it possible to allow messaging capabilities within the desktop environment. These components are as follows:
It is the voice recognition module of Vox Buddy that is responsible for capturing and interpreting user commands. This module serves as the foundation of the functionality of Vox Buddy. This module utilizes sophisticated natural language processing techniques to accurately transcribe spoken words into text. As a result, users are able to communicate with Vox Buddy by means of voice commands. An essential component of Vox Buddy is the messaging integration module, which enables users to communicate with popular messaging services like WhatsApp and email in a smooth manner. Through its integration with these platforms, Vox Buddy makes it possible for users to simply create and send messages, eliminating the need to switch between various applications.
The digital home is getting more complex as new devices and services address user and consumer needs like communication, entertainment, privacy, and security. The user can create a home network with these digital gadgets and a gateway device. Digital devices can have proprietary interfaces and communication protocols to access their functions. Although more digital devices are programmed for client-server communications using presence and networking message protocols, many still use proprietary protocols and driver programs to communicate with home network devices.
A home network user may want alerts, notifications, status, or other messages from home network devices in reaction to certain events, addressed to specific individuals and/or digital endpoint devices for display. After receiving such notifications, the user may want to instruct one or more home network digital devices. Without an event, the user may want to check the status of one or more home network devices. The home network user may also want to remotely operate endpoint devices connected to a gateway device. The user may choose to limit the "visibility" of specified endpoint devices and their activities to local or remote servers offering applications services or server-side presence and home network networking connections.
The user may also want to peer-to-peer communicate between the gateway device in the user premises and another local or remote gateway device with endpoint devices. The peer-to-peer connection is advantageous since it lets users access endpoint device status and functionality from another gateway. By reducing communication management between gateway devices, peer-to-peer communication is desirable.
A gateway device for a user premises that provides a presence and networking messaging client for client-server communications, where endpoint devices associated with the gateway device may not be enabled with such clients, would be desirable. A services subscriber or service provider may want to configure a gateway device to handle events, provide notices, status, or other messages in response to events, and route such messages to specific parties and/or devices for display. Additionally, linked endpoint devices may want to communicate via the gateway device without employing presence and networking. It may be useful to allow peer-to-peer communications between gateways.
Vox Buddy is equipped with a graphical user interface (GUI) that is easy to use and gives users with a seamless experience while interacting with the software. Through the user interface, users are able to easily specify the recipients of messages, construct the content of messages, and trigger the delivery of messages. Because of the user interface's user-friendly design, users are able to take advantage of Vox Buddy's messaging capabilities without having to have any prior knowledge or experience in the technical field. The powerful backend architecture of Vox Buddy underpins the company's operations. This infrastructure enables the processing and routing of messages between Vox Buddy and other messaging platforms that are not affiliated with Vox Buddy. During the entirety of the process, this infrastructure guarantees the uninterrupted transmission of messages while also preserving the confidentiality and integrity of the data involved in communication.
Voice recognition skills of Vox Buddy come into action when a user issues a voice command to send a message. These capabilities accurately transcribe the spoken words into text once the user has issued the command. Following this, the text input is processed by the messaging integration module, which uses natural language parsing techniques to determine the recipients of the message as well as the substance of the message content.Users have the ability to dictate contact names, phone numbers, or email addresses while using Vox Buddy because it provides them with a variety of versatile alternatives for designating recipients. In addition, users have the ability to construct messages by utilizing natural language instructions. For example, "Send a WhatsApp message to John Smith saying, 'I'll be there in 10-15minutes.'

After the details of the message have been finalized, Vox Buddy will begin the process of delivering the message by interacting with the various messaging platforms. Within the desktop environment, Vox Buddy guarantees that messages are delivered in a timely and dependable manner by utilizing communication protocols that are both safe and efficient. This makes it possible for users to communicate with one another in a seamless manner.This detailed explanation sheds light on the internal workings of Vox Buddy as well as its forward-thinking approach to the usefulness of messaging within the desktop computing environment. Vox Buddy establishes a new benchmark for the effectiveness of communication and the quality of the user experience in desktop computing applications by merging speech recognition technology with messaging platforms in a seamless manner.







5 Claims & 2 Figures
Brief description of Drawing
In the figure which are illustrate exemplary embodiments of the invention.
Figure 1, The Process of Sending messages via WhatsApp
Figure 2, The Process of Sending e-mails through voice assistant , Claims:The scope of the invention is defined by the following claims:

Claim:
1. A system/method Vox Buddy cover various aspects of its messaging capabilities, said system/method comprising the steps of:
a) The system starts up, voice commands from the user (1). Based on the input commands, the voice will transmit to WhatsApp messages to control the task automations (2).
b) The user commands will trigger the inputs and sends the message to user (3), whenever the task was completed (4).
c) The developed system will received the voice message from the users (2-1) and will initiates the SMTP (2-2) protocols to send a mail (2-3).
2. As per claim 1, A method for sending messages via popular messaging platforms using a desktop voice assistant system.
3. According to claim 1, A system for integrating messaging functionalities into the desktop computing environment, including WhatsApp and email integration.
4. As per claim 1, An interface for specifying message recipients and composing messages using natural language commands.
5. According to claim 1, A backend infrastructure for processing and routing messages between the voice assistant system and external messaging platforms.

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