Develop an online meeting interview platform that seamlessly integrates video and audio conferencing capabilities with an integrated code editor supporting multiple languages and test cases provided by interviewers. The platform should also include a collaborative whiteboard for realtime drawing and annotations. It should allow recruiters to schedule interviews, send invitations via email. The platform should prioritize security, user privacy, and performance.
Integrate video conferencing capabilities for realtime interviews. Include audio conferencing for clear communication. Ensure seamless integration with the rest of the platform. Provide a code editor within the platform. Support multiple programming languages. Enable interviewers to provide test cases for candidates to solve.
Include a whiteboard for realtime drawing and annotations. Allow both interviewers and candidates to use the whiteboard. Ensure smooth collaboration and interaction.
Allow recruiters to schedule interviews. Send interview invitations via email. Provide a userfriendly interface for scheduling and managing interviews.
Implement robust security measures to protect user data. Ensure user privacy is maintained throughout the platform. Optimize platform performance for smooth user experience.
Define different user roles (e.g., interviewer, candidate, administrator). Assign appropriate permissions to each role for access control. Ensure a secure and efficient user management system.
Provide customization options for branding and user interface. Allow organizations to tailor the platform to their specific needs. Ensure the platform is flexible and adaptable to different use cases.
Develop a web based platform that consists of two portals one for teachers and another for students. The teacher portal allows teachers to add and manage courses, while the student portal enables students to purchase, track, and interact with the courses. The platform aims to facilitate seamless communication and learning between teachers and students.
Teacher Portal: Teachers can add new courses, upload prerecorded lectures, and manage existing courses. Teachers can answer student queries, schedule doubtsolving video calls, and provide course materials and notes to enrolled students. Teachers can view and respond to feedback provided by students. Teachers can track the number of students enrolled in each course and view the total revenue generated from course purchases.
Student Portal: Students can browse and purchase courses available on the platform. Students can track their progress in each course and see the percentage of course completion. Students can ask questions related to the course, and other enrolled students can help answer these questions. Students can request a video call with the teacher for doubt solving, which the teacher can accept and schedule. Students can provide feedback on courses they have completed.
Develop a web based platform with three modules one for the company, one for customers, and one for vehicle owners. The platform aims to facilitate the rental of vehicles from vehicle owners to customers, managed by the company.
Vehicle owners can add their vehicles to the platform, specifying availability times. Owners can offer their vehicles to the company for rental. Owners can track when their vehicles are rented out and when they are available.
The company can view available vehicles and allocate them to customers based on their requirements. The company can track customer information, including rental history and preferences. The company can allocate drivers (part of the company) to specific vehicles for customer service. Integration with a payment gateway to handle rental payments and driver salaries.
Vehicle Rental: Customers can browse available vehicles, select a vehicle for rental, and specify rental duration. Customers can manage their bookings, including viewing upcoming bookings and past rental history. Customers can provide feedback and ratings for vehicles and drivers. Customers can make payments for vehicle rentals through the platform.
Develop an Android application that connects messes with students and other workers living in different cities. The application aims to provide a platform for messes to list their daily menu and for users to view, book meals, provide feedback, and track their orders.
Messes can add and manage food items they will make for the next day. Messes can track the number of people coming for meals based on bookings made by users. Messes can view and respond to feedback and ratings provided by users. Messes can track orders placed by users for delivery.
Users can view the daily menu along with prices. Users can book meals for themselves or multiple persons. Users can provide feedback and ratings for meals and overall experience. Users can order food for delivery, with an option to track the order. Users can track the status of their orders and view the live location of their delivery. Users can choose to dine at the mess or order food for delivery to their location, with an additional cost for delivery. The application should integrate a payment gateway for online transactions.
Develop the Service Booking application designed to connect users with service providers for various services. The app offers a platform for users to easily book services and for service providers to manage their bookings. The app supports three main roles: Admin, Service Provider, and User.
Admins can securely log in to the system using their credentials. View Pending Service Provider Registrations: Admins can view a list of service providers who have registered but are pending approval. View Approved Service Providers: Admins can view a list of service providers who have been approved to offer services through the app. View Disapproved Service Providers: Admins can view a list of service providers who have been disapproved and are not allowed to offer services through the app.
Service providers can register on the platform by providing necessary details such as name, age, contact information, address, etc. Service providers can log in to the system using their credentials. Service providers can view orders that are pending approval or confirmation. Service providers can view orders that have been approved and are scheduled for service. Service providers can view orders that have been disapproved or cancelled. Service providers can view orders scheduled for the current day. Service providers can view orders scheduled for the next 7 days.
Users can register on the platform by providing necessary details such as name, date of birth, contact information, address, etc. Users can log in to the system using their credentials. Users can select a service category and enter their location pincode. Users can view a list of service providers offering services in their area, along with details such as service type, open and close times, etc. Users can book a service from a selected service provider. Users can view orders that are pending approval or confirmation. Users can view orders that have been approved and are scheduled for service. Users can view orders that have been disapproved or cancelled.
Develop the Text Processing application designed to provide users with advanced text processing capabilities on their Android devices. The app aims to simplify textrelated tasks such as OCR (Optical Character Recognition), text formatting, and exporting text into various formats. The app will enhance user productivity by offering a range of features to manipulate and manage text efficiently.
The app will integrate OCR technology to extract text from images captured by the device's camera. This feature will enable users to convert physical documents into editable digital text.
Users will have the option to export the extracted text into various formats, including PDF, Word, and plain text. This functionality will allow users to save and share the extracted text in their preferred format.
The app will offer a variety of text formatting tools, including font styles, sizes, colors, and alignment options. These tools will empower users to customize the appearance of their text according to their preferences.
To ensure user privacy and data secuity, the app will require users to create an account or log in using existing credentials. This feature will also enable users to access their saved documents and preferences across multiple devices.
Develop a music recommendation platform powered by AI and machine learning algorithms. The platform should analyze users' listening habits, preferences, and mood to generate personalized playlists and song suggestions. It could utilize collaborative filtering techniques to recommend music based on users' past interactions and similar user profiles. Additionally, the platform could incorporate sentiment analysis to curate playlists tailored to users' current emotional states or activities. Users can discover new music that resonates with their tastes and preferences, enhancing their listening experience and enjoyment.
An AI-driven music recommendation platform that delivers personalized playlists and song suggestions based on users' listening history, preferences, and mood. Users can explore a diverse range of music tailored to their tastes, discover new artists and genres, and enjoy a customized listening experience.
This problem statement encourages participants to create an AI-powered solution that enhances the music discovery process for users, leveraging advanced algorithms to analyze their preferences and behaviors and deliver highly personalized music recommendations that cater to their individual tastes and moods.
Develop a mobile app that assists healthcare professionals in making accurate medical diagnoses using AI and machine learning techniques. The app should analyze patients' symptoms, medical history, and diagnostic tests to generate potential diagnoses and treatment recommendations. It could leverage natural language processing to interpret patient data from electronic health records and medical imaging data to detect abnormalities or patterns indicative of diseases. Additionally, the app could provide evidence-based guidelines and reference materials to support clinical decision-making. Healthcare professionals can enhance diagnostic accuracy, reduce errors, and improve patient outcomes with the assistance of AI.
A mobile app powered by AI and machine learning algorithms to aid healthcare professionals in making accurate medical diagnoses and treatment decisions. The app analyzes patient data, interprets symptoms, and provides evidence-based recommendations, enhancing diagnostic accuracy and patient care.
This problem statement encourages participants to create an AI-driven solution that addresses challenges in medical diagnosis and decision-making, empowering healthcare professionals with advanced tools and insights to deliver high-quality care and improve patient outcomes
Develop an AI-driven platform for personalized learning and education. The platform should analyze students' learning styles, preferences, and performance data to tailor educational content and activities to their individual needs and abilities. It could incorporate adaptive learning algorithms to adjust the difficulty level of lessons and quizzes based on students' mastery of concepts. Additionally, the platform could offer interactive learning materials, real-time feedback, and progress tracking features to support students' learning journeys. Educators can enhance student engagement, retention, and academic success by leveraging AI to deliver personalized and effective instruction
An AI-powered learning platform that delivers personalized educational content and activities tailored to students' individual learning styles and abilities. The platform adapts to students' needs, provides real-time feedback, and supports their learning journeys, fostering engagement and academic achievement.
This problem statement encourages participants to create an innovative solution that harnesses the power of AI to revolutionize the education sector, providing students with personalized learning experiences that cater to their unique needs and preferences, ultimately enhancing their academic performance and success.