2019-21
Hybird
HyBird Technologies develops robotic solutions to digitise and inspect industrial assets for safer, faster, and cheaper maintenance.
Lead Product Designer
Web
Mobile
2019-21
Hybird
HyBird Technologies develops robotic solutions to digitise and inspect industrial assets for safer, faster, and cheaper maintenance.
Lead Product Designer
Web
Mobile
2019-21
Hybird
HyBird Technologies develops robotic solutions to digitise and inspect industrial assets for safer, faster, and cheaper maintenance.
Lead Product Designer
Web
Mobile
Exploratory UI work that ended up being used in the prototype
Exploratory UI work that ended up being used in the prototype
Exploratory UI work that ended up being used in the prototype
As a product designer collaborating with the Hybird team, I played a key role in the conceptualization and design of an integrated solution for their Photogrammetry SaaS. This included creating an efficient AR user experience with a focus on enhancing the ease of use during on-site inspections.
Our collaborative efforts not only integrated cutting-edge technology into the solution but also effectively communicated its value. This led to our achievement of securing $120k in funding through the Techstars Starburst Space Accelerator in Los Angeles.
Check out initial team sketches?
As a product designer collaborating with the Hybird team, I played a key role in the conceptualization and design of an integrated solution for their Photogrammetry SaaS. This included creating an efficient AR user experience with a focus on enhancing the ease of use during on-site inspections.
Our collaborative efforts not only integrated cutting-edge technology into the solution but also effectively communicated its value. This led to our achievement of securing $120k in funding through the Techstars Starburst Space Accelerator in Los Angeles.
Check out initial team sketches?
As a product designer collaborating with the Hybird team, I played a key role in the conceptualization and design of an integrated solution for their Photogrammetry SaaS. This included creating an efficient AR user experience with a focus on enhancing the ease of use during on-site inspections.
Our collaborative efforts not only integrated cutting-edge technology into the solution but also effectively communicated its value. This led to our achievement of securing $120k in funding through the Techstars Starburst Space Accelerator in Los Angeles.
Check out initial team sketches?
I animated some prototypes to showcase functionality
I animated some prototypes to showcase functionality
I animated some prototypes to showcase functionality
The core of our web-based solution was its innovative use of imagery, as it converted thousands of photographs into a 3D point cloud to enable the "inspection workflow." This workflow allowed technicians to remotely inspect sites, mark defects, establish temperature alarms, and maintain a virtual log accessible from anywhere.
The core of our web-based solution was its innovative use of imagery, as it converted thousands of photographs into a 3D point cloud to enable the "inspection workflow." This workflow allowed technicians to remotely inspect sites, mark defects, establish temperature alarms, and maintain a virtual log accessible from anywhere.
The core of our web-based solution was its innovative use of imagery, as it converted thousands of photographs into a 3D point cloud to enable the "inspection workflow." This workflow allowed technicians to remotely inspect sites, mark defects, establish temperature alarms, and maintain a virtual log accessible from anywhere.
Available inspection sites on world map
Available inspection sites on world map
Available inspection sites on world map
By using imagery as the foundation, we streamlined the inspection process, providing flexibility and efficiency while enhancing collaboration among the inspection team and improving the overall quality of facility inspections.
By using imagery as the foundation, we streamlined the inspection process, providing flexibility and efficiency while enhancing collaboration among the inspection team and improving the overall quality of facility inspections.
By using imagery as the foundation, we streamlined the inspection process, providing flexibility and efficiency while enhancing collaboration among the inspection team and improving the overall quality of facility inspections.
Selecting defect area on the inspection site 3D point cloud
Selecting defect area on the inspection site 3D point cloud
Selecting defect area on the inspection site 3D point cloud
Our web solution, built on the foundation of the generated point cloud, empowered technicians with a set of geometric shapes to expedite facility inspections. These shapes allowed for precise approximations of facility layouts, facilitating the efficient marking of defects in individual components. This approach enhanced inspection accuracy and user experience, streamlining the overall process while maintaining a structured and organized workflow.
Our web solution, built on the foundation of the generated point cloud, empowered technicians with a set of geometric shapes to expedite facility inspections. These shapes allowed for precise approximations of facility layouts, facilitating the efficient marking of defects in individual components. This approach enhanced inspection accuracy and user experience, streamlining the overall process while maintaining a structured and organized workflow.
Our web solution, built on the foundation of the generated point cloud, empowered technicians with a set of geometric shapes to expedite facility inspections. These shapes allowed for precise approximations of facility layouts, facilitating the efficient marking of defects in individual components. This approach enhanced inspection accuracy and user experience, streamlining the overall process while maintaining a structured and organized workflow.
Adding images for inspection workflow
Adding images for inspection workflow
Adding images for inspection workflow
In our solution, the generation of the 3D point cloud using images was not only a technological feat but also a critical element in enhancing user experience. It allowed us to seamlessly bridge the gap between 2D and 3D data, enabling technicians to transfer defect markings made on 2D images directly onto the 3D point cloud.
In our solution, the generation of the 3D point cloud using images was not only a technological feat but also a critical element in enhancing user experience. It allowed us to seamlessly bridge the gap between 2D and 3D data, enabling technicians to transfer defect markings made on 2D images directly onto the 3D point cloud.
In our solution, the generation of the 3D point cloud using images was not only a technological feat but also a critical element in enhancing user experience. It allowed us to seamlessly bridge the gap between 2D and 3D data, enabling technicians to transfer defect markings made on 2D images directly onto the 3D point cloud.
Adding defect from image to 3D point cloud
Adding defect from image to 3D point cloud
Adding defect from image to 3D point cloud
This integration ensured that the defect identification process was not only efficient but also highly accurate. Technicians could work with the familiar 2D images, pinpointing and marking defects with ease. The UX was designed in a way that this marking transitioned effortlessly onto the 3D point cloud, aligning the virtual inspection world with the physical reality of the facility. This approach not only reduced the cognitive load on users but also minimized the chances of errors, resulting in a more intuitive and productive inspection process.
Want to see more rough drawings?
This integration ensured that the defect identification process was not only efficient but also highly accurate. Technicians could work with the familiar 2D images, pinpointing and marking defects with ease. The UX was designed in a way that this marking transitioned effortlessly onto the 3D point cloud, aligning the virtual inspection world with the physical reality of the facility. This approach not only reduced the cognitive load on users but also minimized the chances of errors, resulting in a more intuitive and productive inspection process.
Want to see more rough drawings?
This integration ensured that the defect identification process was not only efficient but also highly accurate. Technicians could work with the familiar 2D images, pinpointing and marking defects with ease. The UX was designed in a way that this marking transitioned effortlessly onto the 3D point cloud, aligning the virtual inspection world with the physical reality of the facility. This approach not only reduced the cognitive load on users but also minimized the chances of errors, resulting in a more intuitive and productive inspection process.
Want to see more rough drawings?
Dashboard view with relevant data
Dashboard view with relevant data
Dashboard view with relevant data