03 Problem Definition - D-division-2024-25-EVEN/REPO-5 GitHub Wiki
Need Statement
An electromechanical transformable RoboCar that shifts between car and robot mode, providing children aged 5 to 10 years with a cost-effective, safe, and interactive play experience.
Question and answer
| # | Questions | Answers | Objective | Function | Constraint |
|---|---|---|---|---|---|
| 1 | Can you develop a toy based on specific user needs and age groups? | Yes (5-10) | ✅ | ||
| 2 | Durability of the toy? | 1 year | ✅ | ||
| 3 | What are the estimated costs for development? | 3000 | ✅ | ||
| 4 | Should the toy be remotely controlled or have smart capabilities? | Yes, remotely controlled | ✅ | ||
| 5 | Colour of the toy | Black and red | ✅ | ||
| 6 | What is your estimated timeline for development and delivery? | 2 months | ✅ | ||
| 7 | What other features to be added? | Should contain some educational and interactive contents with obstacle detection | ✅ | ||
| 8 | Weight range of the toy | Less than 3 kg | ✅ | ||
| 9 | Operate efficiently with minimal power consumption | Yes | ✅ | ||
| 10 | Cost-effective | Yes | ✅ | ||
| 11 | Use of eco-friendly materials | Yes | ✅ | ||
| 12 | Rechargeable power supply | Yes | ✅ | ||
| 13 | Multi-mode operation | Based on user input, different interactions required | ✅ | ||
| 14 | Should be lightweight and easy to handle | Use of lightweight materials for building | ✅ | ||
| 15 | It should ensure child safety | Yes | ✅ |
Identifying Client's Objectives
| SI No. | Objectives |
|---|---|
| 1 | Cost-effective design |
| 2 | Transformable robot car for children (5-10 years) |
| 3 | Minimal power consumption |
| 4 | Lightweight construction |
| 5 | Ensures child safety |
Version 1 (objectives)
Design a cost-effective, transformable robot car for children aged 5 to 10 years. The design should prioritize , minimal power consumption, lightweight construction, and ensure child safety.
Identifying Constraints
| SI No. | Constraints |
|---|---|
| 1 | Durable for up to 1 year |
| 2 | Costs around ₹3000 |
| 3 | Available in red and black colors |
| 4 | Weight less than 3 kg |
| 5 | Development & delivery timeline: 2 months |
Version 2 (objectives and constraints)
Design is for a cost-effective, transformable robot car for children aged 5 to 10 years.The toy will prioritize minimal power consumption, lightweight construction, and the utmost child safety,which is durable for upto 1 year , costs around 3000 in red and black colour ,timeline for development would be 2 months, the weight is around 3 kg This features ensures an engaging, safe, and versatile toy.
Establish Functions
| SI No. | Functions |
|---|---|
| 1 | Rechargeable power source for sustainability |
| 2 | Easily repairable for longevity |
| 3 | Remotely controlled for interaction |
| 4 | Educational & interactive content for learning |
| 5 | Obstacle detection for enhanced safety |
| 6 | Connectivity with other devices for interactive experiences |
| 7 | Multi-mode operation for diverse interactions |
| 8 | Portable design for easy usage |
Version 3 (objectives,constraints and functions)
Design a cost-effective, transformable robot car for children aged 5 to 10 years, prioritizing minimal power consumption, lightweight construction, and utmost child safety. The toy will be durable for up to one year, available in red and black colors, and weigh less than 3 kg, with a development and delivery timeline of two months at an estimated cost of ₹3000. It will feature a rechargeable power source for sustainability and easy repairability for long-term usability. The robot car will support remote control operation, include educational and interactive content to enhance learning, and integrate obstacle detection for added safety. Additionally, it will offer connectivity with other devices for an expanded interactive experience, support multi-mode operation for diverse interactions, and have a portable design for easy handling and storage. This combination of features ensures an engaging, safe, durable, and versatile toy for children.