As a self-taught designer with a deep focus on data visualization, I have honed my expertise in tools such as Illustrator and MidJourney. My approach combines aesthetics and functionality to communicate complex concepts clearly and engagingly. Here are a few key projects that showcase my range of skills in this area:
As a self-taught designer with a deep focus on data visualization, I have honed my expertise in tools such as Illustrator and MidJourney. My approach combines aesthetics and functionality to communicate complex concepts clearly and engagingly. Here are a few key projects that showcase my range of skills in this area:
As a self-taught designer with a deep focus on data visualization, I have honed my expertise in tools such as Illustrator and MidJourney. My approach combines aesthetics and functionality to communicate complex concepts clearly and engagingly. Here are a few key projects that showcase my range of skills in this area:
1. AI Process Visualization for “Making Tomorrow”
1. AI Process Visualization for “Making Tomorrow”
1. AI Process Visualization for “Making Tomorrow”
In this project, I designed a detailed 3D Data Visualization to explain the processes behind Artificial Intelligence and automation for the “Making Tomorrow” initiative. This visualization breaks down the intricate workings of AI-driven manufacturing, from robotic systems to automated material handling. The design represents the flow of information and operational processes in a clear, structured manner, helping collaborators and users understand the behind-the-scenes mechanics of advanced technologies.
Tools used: Illustrator, Blender for process visuals.
In this project, I designed a detailed 3D Data Visualization to explain the processes behind Artificial Intelligence and automation for the “Making Tomorrow” initiative. This visualization breaks down the intricate workings of AI-driven manufacturing, from robotic systems to automated material handling. The design represents the flow of information and operational processes in a clear, structured manner, helping collaborators and users understand the behind-the-scenes mechanics of advanced technologies.
Tools used: Illustrator, Blender for process visuals.
In this project, I designed a detailed 3D Data Visualization to explain the processes behind Artificial Intelligence and automation for the “Making Tomorrow” initiative. This visualization breaks down the intricate workings of AI-driven manufacturing, from robotic systems to automated material handling. The design represents the flow of information and operational processes in a clear, structured manner, helping collaborators and users understand the behind-the-scenes mechanics of advanced technologies.
Tools used: Illustrator, Blender for process visuals.
Artificial Intelligence machines
AI Aided Machines
Concrete use case for AI in industrial process automation
Artificial Intelligence machines
AI Aided Machines
Concrete use case for AI in industrial process automation
Artificial Intelligence machines
AI Aided Machines
Concrete use case for AI in industrial process automation
2. Leonard’s Mind Mapping Visualization
2. Leonard’s Mind Mapping Visualization
2. Leonard’s Mind Mapping Visualization
For Léonard (VINCI Group), I designed an imaginative mind mapping data visualization. The central concept was to visually represent how ideas around urban renovation are generated and connected. The brain-shaped design reflects the balance between eco-anxiety, global ecosystems, and internal pressures, with variables such as geopolitics, resources, and societal shifts influencing the design process. This imaginative take allowed us to map creative ideation through a visually stunning representation, communicating the project’s core focus on innovation and sustainability.
Tools used: Illustrator, MidJourney.
For Léonard (VINCI Group), I designed an imaginative mind mapping data visualization. The central concept was to visually represent how ideas around urban renovation are generated and connected. The brain-shaped design reflects the balance between eco-anxiety, global ecosystems, and internal pressures, with variables such as geopolitics, resources, and societal shifts influencing the design process. This imaginative take allowed us to map creative ideation through a visually stunning representation, communicating the project’s core focus on innovation and sustainability.
Tools used: Illustrator, MidJourney.
For Léonard (VINCI Group), I designed an imaginative mind mapping data visualization. The central concept was to visually represent how ideas around urban renovation are generated and connected. The brain-shaped design reflects the balance between eco-anxiety, global ecosystems, and internal pressures, with variables such as geopolitics, resources, and societal shifts influencing the design process. This imaginative take allowed us to map creative ideation through a visually stunning representation, communicating the project’s core focus on innovation and sustainability.
Tools used: Illustrator, MidJourney.
Illustrator design
Mind Mapping
represent how ideas around urban renovation are generated and connected.
Illustrator design
Mind Mapping
represent how ideas around urban renovation are generated and connected.
Illustrator design
Mind Mapping
represent how ideas around urban renovation are generated and connected.
3. ALT-A Mobile App Prototype
3. ALT-A Mobile App Prototype
3. ALT-A Mobile App Prototype
For ALT-A, I created a mobile application prototype focused on enhancing civic engagement through simple, daily actions. The design presents an intuitive user interface where users can quickly select actions, receive progress updates, and get rewarded for their contributions. The clean and modern layout reflects simplicity while ensuring smooth functionality for end-users.
This prototype demonstrates my ability to create user-centric designs while incorporating data-driven insights to deliver a seamless app experience.
Tools used: Illustrator, MidJourney.
For ALT-A, I created a mobile application prototype focused on enhancing civic engagement through simple, daily actions. The design presents an intuitive user interface where users can quickly select actions, receive progress updates, and get rewarded for their contributions. The clean and modern layout reflects simplicity while ensuring smooth functionality for end-users.
This prototype demonstrates my ability to create user-centric designs while incorporating data-driven insights to deliver a seamless app experience.
Tools used: Illustrator, MidJourney.
For ALT-A, I created a mobile application prototype focused on enhancing civic engagement through simple, daily actions. The design presents an intuitive user interface where users can quickly select actions, receive progress updates, and get rewarded for their contributions. The clean and modern layout reflects simplicity while ensuring smooth functionality for end-users.
This prototype demonstrates my ability to create user-centric designs while incorporating data-driven insights to deliver a seamless app experience.
Tools used: Illustrator, MidJourney.
Weapon – 3D Exploded View and Material Composition Analysis
Weapon – 3D Exploded View and Material Composition Analysis
Weapon – 3D Exploded View and Material Composition Analysis
For this project, I created a detailed exploded view of the Weapon rifle using Blender and Illustrator. The purpose of this visualization was to provide a comprehensive look at the material composition of the weapon, with a specific focus on highlighting the transformation of certain parts over time.
The weapon’s exploded view displays all key components of the weapon, from the barrel and magazine to the Picatinny rails and grip. The 3D model was designed to not only deconstruct the weapon for better visibility but also to explore the materials used in its construction. I emphasized the difference between plastic components and metallic parts, offering a clear view of the existing materials.
A key aspect of the project was the forward-looking element: by 2034, many of the plastic components are slated to be replaced with metal and ceramic parts, optimizing the durability and performance of the HK 416. This 3D visualization provided a roadmap for these changes, offering a glimpse into how the weapon’s composition will evolve over time.
This project showcases my ability to combine technical accuracy with creative 3D modeling, using visualization to communicate complex engineering processes in a clear and engaging manner.
For this project, I created a detailed exploded view of the Weapon rifle using Blender and Illustrator. The purpose of this visualization was to provide a comprehensive look at the material composition of the weapon, with a specific focus on highlighting the transformation of certain parts over time.
The weapon’s exploded view displays all key components of the weapon, from the barrel and magazine to the Picatinny rails and grip. The 3D model was designed to not only deconstruct the weapon for better visibility but also to explore the materials used in its construction. I emphasized the difference between plastic components and metallic parts, offering a clear view of the existing materials.
A key aspect of the project was the forward-looking element: by 2034, many of the plastic components are slated to be replaced with metal and ceramic parts, optimizing the durability and performance of the HK 416. This 3D visualization provided a roadmap for these changes, offering a glimpse into how the weapon’s composition will evolve over time.
This project showcases my ability to combine technical accuracy with creative 3D modeling, using visualization to communicate complex engineering processes in a clear and engaging manner.
For this project, I created a detailed exploded view of the Weapon rifle using Blender and Illustrator. The purpose of this visualization was to provide a comprehensive look at the material composition of the weapon, with a specific focus on highlighting the transformation of certain parts over time.
The weapon’s exploded view displays all key components of the weapon, from the barrel and magazine to the Picatinny rails and grip. The 3D model was designed to not only deconstruct the weapon for better visibility but also to explore the materials used in its construction. I emphasized the difference between plastic components and metallic parts, offering a clear view of the existing materials.
A key aspect of the project was the forward-looking element: by 2034, many of the plastic components are slated to be replaced with metal and ceramic parts, optimizing the durability and performance of the HK 416. This 3D visualization provided a roadmap for these changes, offering a glimpse into how the weapon’s composition will evolve over time.
This project showcases my ability to combine technical accuracy with creative 3D modeling, using visualization to communicate complex engineering processes in a clear and engaging manner.
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