Brahamjot Singh – SDCA Degree Show 2024

ROBOX – FINAL PROJECT

**Introducing Robox**, your ultimate sparring partner! Engineered to enhance reaction times and defense for amateur and beginner boxers, Robox’s adaptive AI mimics real opponents, providing dynamic training sessions. Perfect your skills with realistic, safe sparring scenarios. Elevate your boxing game with Robox!

Robox combines advanced pneumatics and high-torque DC motors to deliver a realistic punching experience, simulating the speed, force, and biomechanics of human punches. Pneumatics ensure fluid, natural movements and absorb impact for safety, while DC motors execute varied punch patterns, including quick jabs and powerful hooks, with precision. This sophisticated system enhances training by replicating real sparring scenarios, helping boxers improve reflexes, defensive skills, and overall performance. Robox’s adaptability offers scalable challenges for all skill levels, providing an unparalleled, dynamic training experience that feels like sparring with a live opponent.

Robox’s foam arms, designed for safety and versatility, can be easily attached and detached using a simple screw mechanism, allowing for quick adjustments in arm length to customize training. Robox offers various lengths of foam arms, allowing you to customize the reach and difficulty of your training. Simply screw the new arm into place using the same threaded socket and stud mechanism.

Robox tests the user’s reactions by incorporating LEDs on its head and torso pads. When these LEDs light up, the user must quickly react to turn them off by tapping the corresponding pad, all while dodging punches thrown by Robox. This setup enhances the user’s agility, hand-eye coordination, and defensive skills, making training sessions both challenging and engaging.

**Prototyping**

Prototyping activities were fundamental to assess the design’s ability to simulate the punches and intuitiveness. This was achieved through a range of low to mid-fidelity prototypes, and a final interactive prototype used to undertake final user evaluations.

**User Testing**

User testing was completed to ensure the design could accommodate a wide range users. Re-enactments of training scenarios also allowed for identifying potential areas where the simulation of punches may not be accurate as well as observing how users interacted with the combination of punches whilst reacting to the randomness of the LEDs.

AirSense – Live Projects

A one-week project assigned by TTP focuses on the contextual application of a medical device designed to assist individuals in managing a chronic condition.

AirSense is a revolutionary asthma management device: designed to predict and alert users of potential asthma attacks before they happen, empowering them to take control of their health with confidence and ease

AirSense harnesses machine learning to analyze health data, biometrics, and environmental factors like air quality, predicting asthma attacks with precision. Users receive discreet haptic alerts for early action, enhancing attack prevention and management. It features environmental sensors and health metric tracking, providing a comprehensive respiratory health overview whilst also offering personalized insights, such as lifestyle recommendations.

AirSense employs haptic feedback to discreetly alert users to potential asthma attacks, a critical feature for early monitoring and intervention. This tactile feedback ensures that users can promptly take necessary actions in a private manner, without drawing attention.
AirSense integrates blinking LEDs with different colors to signify various stages of alert with flashing red indicating a severe attack, amber indicating a potential threat requiring first dose of prescribed medication and green indicating a normal state. These idicators provide a clear, visual representation of the urgency or severity of the situation.

AirSense incorporates the clean, functional lines and user-focused innovation characteristic of the Siemens brand. The careful selection of materials and the device’s intuitive interface reflect the brand’s commitment to quality and reliability. By adding the Siemens logo prominently on the band, it highlights the device’s credibility and trustworthiness whislt aligning it with Siemens’ identity of engineering excellence.

Work Experience

Medical Design Intern at WILDDESIGN

OCT 2022 – MAR 2023, GELSENKIRCHEN, GERMANY

Collaborated with a cross-functional team of engineers and designers to develop innovative medical products.
Assisted in the concept development phase, generating creative ideas and concepts for new medical devices based on user needs and market research.
Contributed to the design and prototyping process, creating physical and digital prototypes to validate design concepts and iterate based on user feedback.
Supported 2 major projects for large-scale clients Fressnapf and Lowenstein.
Sustained a vital role in helping with the design and modelling of the Fressnapf cat tracker from the initial design phase to the final concept selection, with an estimated launch date of early 2024.

Product Design Intern at Frasers Group

JUL 2022 – SEPT 2022, SHIREBROOK

Generate ideas and concepts, translating them into functional and commercially viable product designs.
Liaise with senior designers, factories, and suppliers to communicate research, range plans, and technical specifications accurately.
Produce detailed specification artwork and tech packs for submission to factories, ensuring accurate and high-quality production.
Present product ranges to Commercial Managers, providing clear insights into design decisions and market opportunities.
Improved brand consistency across all product groups, resulting in increased customer recognition and loyalty.