Safe Ski Jumping

Safe Ski Jump

Safe Landing

The concept of the device involves designing a system resembling a medium-sized roller coaster, aimed at dynamically controlling the movement of a suspended individual (athlete).
The device consists of the following key components

The device is suited for use in advanced training systems, entertainment (thematic amusement parks), biomechanical research, or flight simulations. Its fully robotic configuration allows for the creation of dynamic and customized solutions tailored to diƯerent types of users. Should you have any questions, do not hesitate to contact us any time.

No. 1.

Tracks, Carriages, and Cables

Ski Jump Equipment

- „Four levels of autonomy for the ski jumper without increased risk mean greater confidence and a smoother learning process.”

SAFETY IS OUR DRIVING FORCE

Tracks: A high-strength steel or aluminum structure enabling precise movement of carriages in a 3D space. Tracks can be straight, curved, or spiral-shaped, depending on the intended motion trajectory.
Carriages: Mobile drive units moving along the tracks, equipped with guidance systems and propulsion mechanisms (e.g., linear, electric, or hydraulic motors).
Cables: Durable ropes or support straps providing stable suspension of the individual and allowing simultaneous position adjustments along multiple axes.

No. 2.

Suspension of the Person/Athlete

Dependent on the ski jumper's Experience

- „The possibility to verify if a child develops an interest without significant investments and parental stress.”

WE'RE READY TO JUMP TOO

The applied suspension system allows free movement of the user in space while ensuring safety. The system supports active stabilization of body position (inspired by balancing technologies, such as Segway).
The design includes sensors integrated into the harness, which detect changes in force distribution, tilt angles, and dynamic accelerations.

No. 3.

Control System and Software

Impact on the Ski Jumping Process

- „Scientific research/measurement equipment can safely fly on a platform just behind the ski jumper."

Anyone Can Ski Jump – A New Attraction for Tourists.

The control is managed by specialized software integrated with sensors located in the carriages and on the harness.
The software analyzes real-time data on the position, speed, and trajectory of the individual and sends commands to the drive system of the carriages and the balancing system.
Control algorithms account for motion dynamics, such as accelerations, decelerations, and overloads, to ensure a smooth and controlled experience.

No. 4.

Data Collection and Analysis

Application of Sensors and AI

- „Popularization is the golden age of ski jumping, meaning an increase in the value of the entire industry, advertising revenue, R&D budgets, etc.”

ONLY ONE CAN BE THE PIONEER

Integrated sensors (e.g., lidar, accelerometers, gyroscopes) monitor the motion parameters of the suspended user, including speed, direction, and flight trajectory.
The system utilizes this data to precisely adjust the position and optimize the motion trajectory in real-time.
Data logging capabilities allow for post-analysis and fine-tuning of control algorithms as needed.

No. 5.

Safety and Ergonomics

Safety is the foundation of this idea

- „Improved safety could pave the way for the construction of even larger ski jumps.”

YOU CAN REVOLUTIONIZE SKI JUMPING

Emergency stop mechanisms and redundancy features (e.g., dual cable systems) minimize the risk of equipment failure or accidents.
The harness and suspension system are designed with user comfort and protection from excessive forces in mind.

Benefits

What problems does it solve?

What opportunities does it offer?

SECOND VARIANT

The System Has a Moderated Influence on the Ski Jumper

Flexible Connection

SUSPENSION

CABLES AND CONECTIONS

TRACKS AND CARRIAGES

Elastic connection, actively controlled robotic arm – the ski jumper has more autonomy relative to the frame.
Designed for tourists and beginners, as well as for training advanced ski jumpers and conducting research on jumps.
Protects against falls from the starting beam until the ski jumper comes to a stop after landing.
Moderation through software of the ski jumper's autonomy areas (turn on/set intensity of intervention/turn off corrective/assisting system areas – body position, including legs and any body tilt, etc.).

SAFE SKI JUMPING

SAFE SKI JUMPING

SAFE SKI JUMPING

Safety Mechanism for Beginners

Rigid Connection

Minimum Ski Jumper Autonomy

Training Safety Mechanism

Flexible Connection

The System Has a Moderated Influence on the Ski Jumper

Competitive Safety Mechanism

Securing Connection

The System Activates in Case of Danger

Protection Against Falling from the Take-off Table (Ramp)

Safety Net

No Connection to the ski jumper

Safe Ski Jumping

Safe Ski Jump

Safe Landing

No. 1.

Tracks, Carriages, and Cables

Ski Jump Equipment

SAFETY IS OUR DRIVING FORCE

No. 2.

Suspension of the Person/Athlete

Dependent on the ski jumper's Experience

WE'RE READY TO JUMP TOO

No. 3.

Control System and Software

Impact on the Ski Jumping Process

Anyone Can Ski Jump – A New Attraction for Tourists.

No. 4.

Data Collection and Analysis

Application of Sensors and AI

ONLY ONE CAN BE THE PIONEER

No. 5.

Safety and Ergonomics

Safety is the foundation of this idea

YOU CAN REVOLUTIONIZE SKI JUMPING

Benefits

What problems does it solve?

What opportunities does it offer?

FIRST VARIANT

Minimum Ski Jumper Autonomy

Rigid Connection

SECOND VARIANT

The System Has a Moderated Influence on the Ski Jumper

Flexible Connection

THIRD VARIANT

The System Activates in Case of Danger

Securing Connection

FOURTH VARIANT

No Connection to the ski jumper

Safety Net

OUR EXPECTATIONS

PROJECT IMPLEMENTATION PROCESS

FEASIBILITY CHECK

PROJECT IMPLEMENTATION

CAPITALIZATION OF THE PROJECT

Contact Us