Break through time, place, and environmental constraints, start training anytime, anywhere. Save the cost of actual training and avoid risks and consequences caused by operational errors.
According to the demand scenarios of specific industries, adding additional customized development to meet business needs.Support customization scenarios and UAV models.
SRIZFLY™ flight simulator provides a rich sensory and cognitive experience, allowing users to truly integrate into the overall atmosphere of flight and focus on training.
SRIZFLY™ Flight Simulator stereo rendering simulates and constructs aircraft models and various scenes, which are delicate and vivid. It allows drones to be trained in a virtual environment.
Wuhan SRIZ Technology Co., Ltd., located in Wuhan city, Hubei Province, China, is a long-term technology enterprise committed to the research and development of drone flight simulation, covering platform software development, VR / AR industry application and other businesses. The company's products mainly include SESP-U1 SRIZFLY Flight Simulator, STS-H1 Electricity Flight Simulator, AUSE-V1 Search and Rescue Flight Simulator, etc., which has been used in many fields, such as agriculture, electric power, surveying and mapping, etc. The company has its own research and development team, with a strong independent research and development ability.
Some common features that may be included in a drone virtual flight application include:
3D graphics: Most UAV virtual flight applications use 3D graphics to simulate the flight of the UAV. This allows users to get a realistic sense of what it would be like to fly the UAV in the real world.
Physics simulation: Some UAV virtual flight applications include a physics simulation engine that accurately models the physical forces that affect the UAV in flight. This can be useful for training purposes, as it allows users to experience how the UAV will behave in different conditions.
Virtual environments: Many UAV virtual flight applications include a variety of virtual environments in which users can fly their UAVs. These environments may include cities, forests, mountains, and other terrain types.
Customizable UAVs: Some UAV virtual flight applications allow users to customize the appearance and performance characteristics of their virtual UAVs. This can be useful for testing out different configurations and designs.
Multiplayer modes: Some UAV virtual flight applications include multiplayer modes, allowing users to fly their UAVs against other players online.
Drone virtual flights can serve a variety of purposes, including training, entertainment, and research. Some possible roles for drone virtual flights include:
Training: Drone virtual flights can be used to train pilots to fly drones safely and effectively. Virtual flight simulations allow pilots to practice flying and executing specific maneuvers in a safe and controlled environment, without the risk of damaging a real drone.
Entertainment: Drone virtual flights can also be used for entertainment purposes, allowing users to experience the thrill of flying a drone without the need for physical equipment.
Research: Researchers and developers can use drone virtual flights to test new drone technologies or to explore new applications for drones, such as delivery or search and rescue operations.
Education: Drone virtual flights can be used as educational tools, allowing students to learn about the mechanics of drone flight and the principles of aerial navigation.
A combination of drone virtual flights and real-world flight experiences can be a valuable tool for training pilots or for research and development purposes.
Using both virtual and real-world flight experiences can allow pilots to:
Learn the basics of drone flight in a safe and controlled environment: Virtual flight simulations can be used to introduce pilots to the basics of flying a drone, including takeoff, landing, and navigation.
Practice specific maneuvers and scenarios: Virtual flight simulations can be used to practice specific maneuvers or scenarios that may be difficult or risky to attempt in the real world, such as flying through tight spaces or navigating through adverse weather conditions.
Enhance real-world flight skills: Combining virtual and real-world flight experiences can help pilots develop a better understanding of how their actions in the virtual world translate to the real world, allowing them to more effectively apply their skills in a real-world setting.
Test new technologies or applications: Researchers and developers can use a combination of virtual and real-world flight experiences to test and refine new drone technologies or to explore new applications for drones.
upport the operation training of 4-rotor and 6-rotor UAVs, and support the customized development of 4-rotor, 6-rotor and 8-rotor UAVs.
SRIZFLY™ Flight Simulator will help solve this problem from the following points: 1.Improve operational efficiency; 2. Reduce field accidents; 3. Reduce the cost of time required to train new pilots; 4.Additional customized development is available to meet business needs.
A 64-bit Windows 10 system computer with a medium-high graphics card is required to run the program; a remote control is used to control; a Micro-B to USB-A cable is used to connect the remote control to the computer.
Phoenix remote control dual-return middle eight-channel, Foss i6s, Jinba T2000.
When purchasing flight simulation, a 10 channel remote control is provided. By default, a wired remote control is provided, and a wireless remote control is optional.