PIX robobus is defined as the “transportation microcirculation tool” for urban cities. It can carry 4-6 passengers for autonomous driving commutes of 3 to 5 kilometers on daily basis. PIX robobus provide shared mobility and commuting services in tourist attractions, university campus, industrial parks and airports etc.. The robobus fleets can be deployed and scattered around the main city roads to navigate around the narrow blocks and streets, greatly dredging the city “blood vessels” and leading to a dynamic city mobility system.
PIX Moving
PIX Moving is announcing Robobus, the autonomous driving shuttle car for self-driving rides. Currently, PIX robobus is operating in tourists attractions, industrial parks and other city environments.
PIX robobus is defined as the “transportation microcirculation tool” for urban cities. It can carry 4-6 passengers for autonomous driving commutes of 3 to 5 kilometers on daily basis. PIX robobus provide shared mobility and commuting services in tourist attractions, university campus, industrial parks and airports etc.. The robobus fleets can be deployed and scattered around the main city roads to navigate around the narrow blocks and streets, greatly dredging the city “blood vessels” and leading to a dynamic city mobility system.
PIX robobus is defined as the “transportation microcirculation tool” for urban cities. It can carry 4-6 passengers for autonomous driving commutes of 3 to 5 kilometers on daily basis. PIX robobus provide shared mobility and commuting services in tourist attractions, university campus, industrial parks and airports etc.. The robobus fleets can be deployed and scattered around the main city roads to navigate around the narrow blocks and streets, greatly dredging the city “blood vessels” and leading to a dynamic city mobility system.
updated 2 years ago
PIX robobus is defined as the “transportation microcirculation tool” for urban cities. It can carry 4-6 passengers for autonomous driving commutes of 3 to 5 kilometers on daily basis. PIX robobus provide shared mobility and commuting services in tourist attractions, university campus, industrial parks and airports etc.. The robobus fleets can be deployed and scattered around the main city roads to navigate around the narrow blocks and streets, greatly dredging the city “blood vessels” and leading to a dynamic city mobility system.
The minibus has been in trial service around Turin since May, as PIX Moving obtains one of the city's first licenses to test and operate autonomous vehicles on public roads. Starting from October, the pilot project will have another round of testing to wrap up the first phase of trials inside the Tecnocad premises. More tests will follow across the Europe.
The strategic collaboration aims at implementing electric autonomous vehicles at large scale to provide on-demand urban services through the autonomous mobility
The integration of TIER IV’s Automotive HDR Cameras enhances the kit’s capabilities, providing HDR imaging and enabling precise perception and enhanced object detection in challenging lighting conditions. By combining PIX Moving’s expertise in autonomous driving development with TIER IV’s cutting-edge camera technology, PIXKIT 3.0 sets a new standard in the field.
PIXKIT 3.0 — Knight Driving Kit includes a cargo-type frame top produced using lightweight metal 3D printing technology, enhancing performance and safety. The Knight Driving Kit supports three modes: remote driving through controller, autonomous driving through algorithms and manual driving by humans. Both manual and autonomous driving integrated in the kit aims to achieve advanced human-machine co-driving and algorithm verification.
For more information, please visit PIX Moving website: pixmoving.com/pixkit3
Upgraded eagle-wing door and tailored interior decor dedicated to on-demand services, revolutionizing the retail experiences through the empowerment of smart mobility technologies. The Robobus retail vehicle merges into the ongoing crowds, sparking the lit vibes of a new lifestyle in the city.
The use of autonomous driving technology for on-demand retailing has been an emerging trend in recent years. Beyond transporting people from one location to another, autonomous vehicles, equipped with fully autonomy, are being utilized to deliver goods and services directly to customers. This approach offers convenience, efficiency, and cost-effectiveness in the retail industry. Retailers can gain more traffic over different time frame and serve the end users 24/7.
PIX Moving is actively driving the next-gen retail experience in joint efforts with local partners to launch various autonomous retail applications for severing the local residents. By leveraging autonomous driving technology and the new user interaction system powered by AI, PIX aims to create new retail experiences that will transform the way people access and interact with products and services.
Powered by One-Piece 3D Print Technology:
8% Longer Range, 20% Lower Manufacturing Costs, 400 Components Integrated
Generative-designed skateboard chassis of organic shape - reimagining the design and manufacturing of electric vehicles. The PIX Robo-EV aims to offer a modular, customizable, and sustainable electric vehicle platform with advanced autonomous driving capabilities enabled by AI and innovative manufacturing techniques like 3D printing, further driving the ecosystem of electric mobility.
PIX Robo-EV, the electric vehicle with several innovative features:
1) AI-Driven Generative Design
PIX Robo-EV is one of the first in the industry to use generative algorithms for designing a bio-inspired hollow structure, thereby reducing the part count and optimizing the design.
2) Composite Materials for Lighter and Safer Design
The vehicle utilizes basalt fiber composite materials to create leaf springs in the suspension system, achieving a lighter, safer, and more eco-friendly driving experience.
3) Integrated Chassis with Metal 3D Printing
The chassis is produced using metal 3D printing technology, resulting in an integrated structure that reduces potential failures, minimizes supply chain dependencies, and enhances overall reliability and handling of the vehicle.
4) Autonomous Driving Capabilities
The vehicle features advanced autonomous driving technologies such as:
· Brake-by-wire for better braking and energy recovery
· Steer-by-wire enabling Level 4 autonomous driving with real-time response and control
· Electronic Parking Brake (EPB) for precise braking and automatic parking
5) Open Interfaces and Customization
The chassis has open interfaces that allow users to access the communication protocol, change parameters and functions, and personalize the chassis tuning and vehicle behavior.
For more information of Robo-EV, please visit roboev.pixmoving.com
This video is a close zoom-in into every detail of Robobus: the shuttle navigates in various scenarios in full autonomy, revealing key features like obstacle avoidance, traffic lights recognition, path planning, path following, stopping at the station, map creation, emergency stops, switching between autonomous driving & manual driving mode and more. The video also entails on the sleek exterior design and the interior interaction system like the light control, air conditioning setting and the entertainment system.
PIX Robobus employs a multi-sensor fusion strategy, incorporating LiDAR, millimeter-wave radar, cameras, and ultrasonic radar etc… This comprehensive autonomous system enables precise identification and analysis of surrounding obstacles, pedestrians, vehicles, and road signs, ensuring safe driving in various road and weather conditions. PIX Robobus provide shared mobility and commuting services in tourist attractions, university campus, industrial parks, urban city and more environments. The Robobus fleets can be deployed and scattered around the main city roads to navigate around the blocks and streets, greatly dredging the city “blood vessels” and leading to a dynamic city mobility system.
For more details, visit pixmoving.com/robobus
Currently, the first Robobus has already arrived in Los Angeles, USA, and more vehicles will follow suit. PIX and JéGo are collaborating to promote sustainable urban development through autonomous driving Moving Spaces.
#PIX_Moving #JéGo #smartcity #emobility #technology
@jegopods6483 @frederickakpoghene7047
As innovators, it is our responsibility to balance the advancement of technology with preserving our humanity. In Hackcity 1.0, 203 participants assembled in teams to co-build a self-organizing and sustainable city with 100 modular moving spaces. And now, we're excited to reveal their solutions for the smart city!
Under the ultimate goal of building a sustainable city paradigm, turning the abstract notion of "living space" into something accessible with its adaptability and mobility, PIX Moving Spaces are considered as urban basic modules to connect the human - space.
Hackcity is an ongoing competition aimed at completing the practice of a future smart city - PIXCITY, where to implement shareable, configurable, connectable, and achievable urban designs.
In PIX Moving, we believe that the power of decentralization and open innovation are the keys to paving the way for future cities and life, that’s why we initiate constant hackathons to practice of lowering the threshold of robots and technology.
Hackcity 1.0 projects: pixmoving.com/projects-6
Join the PIXCITY building plan: pixmoving.com/pixcity
#smartcity #hackathon #futuremobility #tech
It is proven that tool innovation leads to product improvement.
Autodesk Fusion 360 combines PAM™ to empower us to rapidly build the immersive Moving office room, which makes it more efficient and flexible in the early design and modeling stages.
#HM2023 #futuremobility #MovingSpace #fusion360 #pam
Contact with us:
PIX Moving: pixmoving.com
Instagram: instagram.com/pixmoving
Twitter: twitter.com/thepixmoving
Start your smart vehicle with PIXKIT now: pixmoving.com/pixkit
PIX Moving Space, also known as PIX Robobus, defined as the third-gen transportation. It is not only focusing on the commute but the ultimate ride experience and possiblities upon the chassis platforms.
Fully autonomous, all-electric, modular space design empowers a diverse shared mobility, making Moving Space a new urban lifestyle.
More about PIX Moving Space:
pixmoving.com/robobus
More about PIX Moving:
pixmoving.com
Hooke2.0 equipped with 4-wheel hub motors and simulation optimization on parts structure to provide a comprehensive safety setup from software, electronics to mechanics.
Learn More about PIXLOOP - Hooke2.0: pixmoving.com/pixloop
PIX Moving: pixmoving.com
PIX Moving Space is dedicated to providing users with a more convenient and efficient way of living and working. Based on the user's needs, we use the self-driving skateboard chassis technology and POD structure to create a variety of moving spaces, including shuttle buses, moving beauty shops, coffee shops, gyms, cafes and so on.
The Moving Spaces for various scenes has been successfully delivered to a number of countries, including the United States, India and so on. The goal is to bring more freedom and flexibility to life & work.
Pioneering & define the next-gen lifestyle with us!
More information: pixmoving.com/robobus
PIX Moving Official Website: pixmoving.com
PIX Moving on Instagram: instagram.com/pixmoving
It combines the large language design and engineering models to turn your words into components that can actually be made, from the automotive industry to more. It is where the generated content meets your manufacturing requirements.
PAM™ is about to meet you and is now open to invited alpha testers worldwide.
Join the waitlist through DeAuto Hackathon: deauto.io/movingspacehackathon
P.S: The kickoff will be held in the Spatial room. Since the limited number of people, feel free to join & interact with us through this live stream or ask questions through Discord or email :)
Hackcity Challenge is an open urban design challenge that aims to co-build a self-organizing sustainable city with 100 modular autonomous driving Moving Spaces, initiated by PIX Moving in PIXCITY.
At this kickoff, participants and Team PIX will officially meet up with each other and the following features will be mentioned:
- Roadmap of Hackcity challenge;
- FAQs;
- Design brief announcement;
Join us and let's see what's new in future city design!
Amazing Technology and advanced sharing make up this remarkable journey, and we are honored to share innovative applications of communication, transportation, and the Metaverse with colleagues from a variety of industries.
We are glad that our PIX Robobus, vehicle development solutions, and vision were commended by visitors, each communication reinforces our plan to iterate and serve in more scenarios, Robobus will ride to more countries and regions in the next steps.
Many thanks to all, let's stay in touch online, and looking forward to seeing you next time!
The first space is your house
The second space is where you work
The third space is the social space
The fourth space is a dedicated personalized space only for you, where you can sip some "Me Time" and enjoy life, where you can shape your time and give it a concrete vibe. We endow it with a new definition: "Architecture On Wheels".
PIX Robobus is designed for people to interact with the world, instead of being isolated by the vehicle. Life, entertaining, city they all mingle together to form a dynamic lifestyle for passengers, riders, and dwellers.
New skateboard chassis platform with modular structure and in-wheel motor technology, PIX Robobus renders more space for the users, while meanwhile enabling the convenience brought by smart mobility.
Music credit:
Hi-Tech Corporate
2B Studio
Working, entertaining and living reshaped by PIX Ultra-skateboard chassis platform, which becomes the dynamic base unit of the coming smart city
As world’s first autonomous driving skateboard-type chassis, Ultra-Skateboard™ aims to lower the threshold for autonomous driving product innovation and significantly shorten the time to market.
In the trend of the global Automotive industry revolution, we are dedicated to developing autonomous chassis, systems, vehicles. By promoting the lowering threshold for autonomous driving applications, bringing more individuals and institutions participate in.
Specially thanks to Italdesign for this incredible project!
As the world's leading design software and Digital Content Creation company, Autodesk has helped PIX Team to achieve the business's digital transformation.
Specially thanks to Chan Solanki, Thought leadership Marketing Manager from ADSK, who promotes this incredible video.
We live, we move.
It's robobus, designed for riders.
A space centered around the passengers and their experiences
This is the design team behind PIX robobus project and how they perceive the future of mobility and the riding experiences.
PIX robobus is defined as the “transportation microcirculation tool” for urban cities. It can carry 6-8 passengers for autonomous driving commutes of 3 to 5 kilometers on daily basis. PIX robobus will provide shared mobility and commuting services in tourist attractions, university campus, industrial parks and airports etc..
What’s next?
Drive mode: Four-wheel drive and four-wheel steer
Battery: 3.7kWh
Maximum Load: 150kg
Maximum Speed: 25km/h (Limit set by software)
Gradability: 17%
Drive-by-wire ready and autonomous driving compatible
Perception, decision-making and execution are the three key elements in autonomous driving, whose performance are greatly defined by a robust and reliable drive-by-wire chassis platform. PIX drive-by-wire and autonomous driving chassis platform series have covered multiple sizes, integrating software hardware and mechanical capabilities on one platform, which serves as a great development base for R&D, academic and education projects, rapid AV prototyping as well as industry applications development.
• Autonomous navigating to go around autonomously in different application scenarios
• Face recognition (all-angle cameras for full-around inspection)
• Danger alert (built-in speaker for danger alert)
• Illegal parking (take photos and pictures record for illegal parking on the roads )
• Remote monitoring and speaking (monitor the surroundings remotely and speak to targeted groups via the microphone setting)
• 5G communication (high-speed data return)
• On-spot turning (turning easily in complicated environment)
• Obstacle avoidance/Path tracking/ Environment perception (AI and autonomous-driving-powered functions, enabling an intelligent unit)
PIX security patrol can support the patrolling work in diverse industrial parks and high-risk locations, and can constitute a complete security monitoring system through the data analysis from both fixed surveillance and the environmental big data, which realizes dynamic inspection, monitoring without blind spots, and early warning of potential risks, effectively avoiding various drawbacks of human inspection, and meeting the security requirements of indoor and outdoor sites.
Full-stack, cost-effective and high-performance, it supports open source autonomous driving software Apollo and Autoware, as well as platforms like ROS, MATLAB/Simulink and more.
With software and hardware platform stacks, plus comprehensive user manuals and documentations, PIXKIT is dedicated to lowering the entry barrier of autonomous driving development. It empowers industry companies, academic professors, developers and general engineers to quickly dvelop and deploy autonomous vehicles, build/test algorithms
and launch AV demonstrations, sparking more possibilities.
• Rapid prototyping of autonomous driving vehicles
• Quick deployment and demonstration of self-driving applications in single or multiple scenarios
PIXKIT comes with:
Hardware
• Open source electric drive-by-wire chassis
• Modular mounting brackets/ Full-set of sensors / Industrial Remote
Documentation
• Detailed user guide for open source software Apollo and Autoware
• Instruction manual for ROS development
• Technical manual for drive-by-wire chassis
• Use cases and analysis on R&D projects
The modular design of PIX platforms enables the flexible modification between diverse applications of different sizes and configurations. Combined with flexible digital manufacturing approach (generative design+additive manufacturing), PIX Moving offers small-batch, multi-variety and on-demand autonomous driving solutions for industry applications
The cabin/pod is customized for different juice arrangement inside to provide a wide array of juice selections. With LiDAR, cameras and other sensors around, the vehicle can go self driving in a safe way, stopping for customers whenever it's needed
PIXBOT chassis platform is customizable and extensible thanks to its flexible architecture and modular design. The wheelbase and wheel track can be easily adjusted based on different application requirements. With detachable link between pod and chassis, the upper part can be interchanged fast to meet a diverse range of scenario settings: mobile office, moving taco car, self-driving vending cargo, autonomous security patrol....the future of mobility is here: Autonomous Mobility is reshaping how we work, live and play
10 times less parts. 60% shorter lead time. Pure organic shape with lightweight modular design. The world's first generative designed and metal 3D printed autonomous chassis platform is ready to redefine the automotive industry from design to manufacturing
PIX Moving envisions autonomous driving technology from city perspective. While many other autonomous driving startups are focusing on transporting people from point A to B, PIX is thinking to bring autonomous-mobility-powered services to people. We empower city spaces with autonomous mobility so that spaces will be mobile, configurable and on-demand. Taco trucks, coffee machines, and photo booths will all become autonomously routed and freely moving parts of cities.
About PIX:
PIX (www.pixmoving.com) is a self-driving startup dedicated to rebuilding the cities with autonomous mobility. PIX builds robo-vehicle that consists of multi-functional pod and self-driving chassis. With the modular design and innovative manufacturing approach, PIX integrates living, working and entertainment spaces on all kinds of robo-vehicles, making spaces connected, sharable and on-demand. Pod + chassis design enables the flexible modification between autonomous mini hotel, self-driving coffee car, unattended vending car, multi-purpose self-driving room and more.
This video recorded the exciting moments and experiences of training base cohort II, during which participating engineers had hands-on practice on self-driving cars, conducted software deployment for the self-driving system, attended training lectures about open source software Autoware from Tier IV mentor and successfully competed a variety of challenging tasks.
New cohort is opening for application: pixmoving.com/training-base-ch
Moving provides car platforms equipped with computing abilities, sensors, drive-by-wire control and other hardware support, also closed urban roads to test and race for global self-driving engineers, who can stay focused on algorithms/software design, optimization and development without worrying about car/hardware to test. Moving Hackathon and self-driving Challenge is a self-driving global challenge with two onsite participating categories: Full-Sized Car Urban Road Self-Driving Skill Challenge and Small-Sized Self-driving Car Onsite Challenge. With sparking spirit of engineering and technology innovation as the aim, the Hackathon is meant to facilitate the mutual growth and inspiration among self-driving startups, engineers, developers and enthusiasts worldwide.
Moving Hackathon 2019 is under way. Check more details here: pixmoving.com/movinghackathon
The video recorded the exciting moments and experiences of the five days, during which 15 engineers from China had hands-on practice on self-driving cars, conducted software deployment for the self-driving system, attended training lectures about open source software Autoware from Tier IV mentor and successfully competed a variety of challenging tasks. Let’s a take a peek into the fun!
Yeah, it’s our new buddy: Vacuum Thermoforming Machine. With him, we can produce the body frame of modular PIX car within customizable sizes, from large-sized mobile meeting room, medium-sized moving cinema to small-sized self-driving retail store. Isn’t that fantastic?
See what he's capable of and subscribe our channels to get more updates
PIX Cafe Car- the very first application of self-driving services from PIX, is coming soon
Yeah, this is us. A group of interdisciplinary people who are passionate about making things and creating new stuff. Software engineers, electronic engineers, designers, entrepreneurs, artists, geeks, makers, Kuka, kitten….we gather together for the same vision we aspire for.
We turn ideas into reality and bring it to the market when it’s ready. We are the active explorer of intelligent manufacturing, dedicated ourselves to the revolution of mobility and manufacturing. We embrace different cultures and backgrounds. We strive to plough a land full of opportunities and we believe that the value-driven working result is always the best judge.
Currently the team is happily working on the new project PIX, rebuilding the mobility and manufacturing of Cars. The digital fabrication will provide us better approach to car manufacturing.
PIX is not just a self-driving car, it is an intelligent terminal powered by new way of manufacturing. Control system, electric power platform and cabin structure-the modular design enables PIX to modify freely for different uses such as shuttle vehicle, unattended vending car, and autonomous logistics cargo etc.. PIX is a solution for sharing mobility in industrial parks, shopping malls, tourists attractions, airport, residential area, private roads and other public places.
Direct digital manufacturing is not easy either. But it’s worth it when we get what we expected.
When designing the frame, Angelo got his inspiration from the Mobius strip, which has certain unique turns and surface tracks. It is mathematically beautiful. Somehow it echoes to the futuristic and technology sense of self-driving. So the white frame of PIX came, with the special curves around the car body, murmuring its flow in mobility.
The materials we used is ABS, which came in blocks and we processed it with the CNC equipment. Pieces were crafted then put together to form the curves. It’s hard to produce the whole frame at one time because it’s way too expensive. With the digital manufacturing method, we got what we want at low cost and of course in faster time. With some knocking, banging, and dinging, the first look is out and it looks not bad.
The UR robot will soon begin its show. Self-driving cafe car with robot barista serving fresh coffee :P
About PIX PIX -Rebuild the Manufacturing and Mobility of Cars.
PIX is not just a self-driving car, it is an intelligent terminal powered by new way of manufacturing. Control system, electric power platform and cabin structure-the modular design enables PIX to modify freely for different uses such as shuttle vehicle, unattended vending car, and autonomous logistics cargo etc.. PIX is a solution for sharing mobility in industrial parks, shopping malls, tourists attractions, airport, residential area, private roads and other public places.