Initiatives
Braille Keyboards
The present invention pertains to an innovative braille keyboard designed to address the needs of visually impaired individuals. It integrates 3D-printed custom braille keys with repurposed standard keyboards, achieving a production cost of $10 or less per unit. The device is offered in both pre-assembled and modular configurations, featuring tactile feedback for enhanced key recognition and braille learning. Constructed with lightweight yet durable materials, the keyboard is optimized for long-term use. Its scalable design combines low-cost 3D printing with donated components, enabling mass production and global distribution. Workshops validate its efficacy in improving typing speed and learning outcomes, presenting a transformative solution for accessible education and employment opportunities.

Keyboards donated
Partnered with
2 NPOs
Braille Keyboards
The present invention pertains to an innovative braille keyboard designed to address the needs of visually impaired individuals. It integrates 3D-printed custom braille keys with repurposed standard keyboards, achieving a production cost of $10 or less per unit. The device is offered in both pre-assembled and modular configurations, featuring tactile feedback for enhanced key recognition and braille learning. Constructed with lightweight yet durable materials, the keyboard is optimized for long-term use. Its scalable design combines low-cost 3D printing with donated components, enabling mass production and global distribution. Workshops validate its efficacy in improving typing speed and learning outcomes, presenting a transformative solution for accessible education and employment opportunities.

Keyboards donated
Partnered with
2 NPOs
Braille Keyboards
The present invention pertains to an innovative braille keyboard designed to address the needs of visually impaired individuals. It integrates 3D-printed custom braille keys with repurposed standard keyboards, achieving a production cost of $10 or less per unit. The device is offered in both pre-assembled and modular configurations, featuring tactile feedback for enhanced key recognition and braille learning. Constructed with lightweight yet durable materials, the keyboard is optimized for long-term use. Its scalable design combines low-cost 3D printing with donated components, enabling mass production and global distribution. Workshops validate its efficacy in improving typing speed and learning outcomes, presenting a transformative solution for accessible education and employment opportunities.

Keyboards donated
Partnered with
2 NPOs
Braille Maps & Globes
This initiative aims to create a tactile, Braille-labeled map and globe for visually impaired users. The maps will use raised borders and textures to represent geographical features.
The globe will highlight continents and major landmarks with Braille labels. All models will be 3D printed with high-resolution settings for optimal tactile feedback, ensuring ease of exploration and navigation.

Map types
Precision tolerance
Braille Maps & Globes
This initiative aims to create a tactile, Braille-labeled map and globe for visually impaired users. The maps will use raised borders and textures to represent geographical features.
The globe will highlight continents and major landmarks with Braille labels. All models will be 3D printed with high-resolution settings for optimal tactile feedback, ensuring ease of exploration and navigation.

Map types
Precision tolerance
200 μm
Braille Maps & Globes
This initiative aims to create a tactile, Braille-labeled map and globe for visually impaired users. The maps will use raised borders and textures to represent geographical features.
The globe will highlight continents and major landmarks with Braille labels. All models will be 3D printed with high-resolution settings for optimal tactile feedback, ensuring ease of exploration and navigation.

Map types
Precision tolerance
Braille Shapes
This initiative advances learning for the visually impaired by creating geometric shapes (2D and 3D) which will feature distinct textures for tactile identification as well as Braille labels.
Just like the maps & globes, these shapes will be printed with high-resolution settings for optimal tactile feedback.

3D shapes
2D shapes
Braille Shapes
This initiative advances learning for the visually impaired by creating geometric shapes (2D and 3D) which will feature distinct textures for tactile identification as well as Braille labels.
Just like the maps & globes, these shapes will be printed with high-resolution settings for optimal tactile feedback.

3D shapes
2D shapes
6
Braille Shapes
This initiative advances learning for the visually impaired by creating geometric shapes (2D and 3D) which will feature distinct textures for tactile identification as well as Braille labels.
Just like the maps & globes, these shapes will be printed with high-resolution settings for optimal tactile feedback.

3D shapes
2D shapes
Smart Cane
The smart cane is a smart mobility device designed for visually impaired users, integrating sensors, GPS, and Bluetooth technology to enhance navigation. It provides real-time obstacle detection, route guidance, and location tracking through a mobile app, offering both auditory and haptic feedback.
The cane's connected features help users navigate unfamiliar environments safely, while the app allows for personalized settings and emergency alerts, promoting greater independence.

Real-time processes
Unique features
Smart Cane
The smart cane is a smart mobility device designed for visually impaired users, integrating sensors, GPS, and Bluetooth technology to enhance navigation. It provides real-time obstacle detection, route guidance, and location tracking through a mobile app, offering both auditory and haptic feedback.
The cane's connected features help users navigate unfamiliar environments safely, while the app allows for personalized settings and emergency alerts, promoting greater independence.

Real-time processes
Unique features
Smart Cane
The smart cane is a smart mobility device designed for visually impaired users, integrating sensors, GPS, and Bluetooth technology to enhance navigation. It provides real-time obstacle detection, route guidance, and location tracking through a mobile app, offering both auditory and haptic feedback.
The cane's connected features help users navigate unfamiliar environments safely, while the app allows for personalized settings and emergency alerts, promoting greater independence.

Real-time processes
Unique features
Autonomous Wheelchair
An autonomous wheelchair equipped with LiDAR, computer vision, and IoT connectivity to empower individuals with disabilities to navigate large public spaces like airports, hospitals, and malls independently. This innovative wheelchair isn't just about technology—it’s about inclusion, empowerment, and creating a future where mobility is accessible to all.

Input interfaces
Autonomous Wheelchair
An autonomous wheelchair equipped with LiDAR, computer vision, and IoT connectivity to empower individuals with disabilities to navigate large public spaces like airports, hospitals, and malls independently. This innovative wheelchair isn't just about technology—it’s about inclusion, empowerment, and creating a future where mobility is accessible to all.

Input interfaces
Autonomous Wheelchair
An autonomous wheelchair equipped with LiDAR, computer vision, and IoT connectivity to empower individuals with disabilities to navigate large public spaces like airports, hospitals, and malls independently. This innovative wheelchair isn't just about technology—it’s about inclusion, empowerment, and creating a future where mobility is accessible to all.

Input interfaces