una comunicación de 2 vías Rover que no son de 2 vías para el rover de tierra

Aquí está la demanda de un cliente..

I have a ground rover which needs 2km non los communication. I need the whole system (excluding the camera). The range or the type of obstacle is not quite clear in the video. Let me clarify my requirements.
Obstacle type: Let’s say between my rover and base station there is a building with 2500 sq meters space in between. I don’t need fire proofing on my antenna(if there’s any). For my system, I need omni antennas able to send control data and receive both data and a video stream. The range should be at least 1.2km. 2km is recommended.

From the customer’s needs, we can understand that he needs a two-way video data transmission system for the ground rover. Customers need to receive the video transmitted from the ground rover through the receiver, and also need to be able to send data through the remote control to control the ground rover 1 a 2 kilómetros de distancia.

This is a typical solution that requires a ground two-way transmission system. Nuestro vcan1935 is used for ground fire prevention robots. Nuestro TX900 two-way transmission system can be used for point-to-point or relay solutions, and there is also 1806 using IP mesh, which is suitable for solutions with more than 3~4 nodes.

The most difficult thing to achieve among the customer’s requirements is the obstacles in the middle, because the customer also mentioned that his obstacles are unknown, which may be buildings, fábricas, woods or hills.

To solve the problem of effective transmission of the two-way transmission system in the presence of obstacles, it is necessary to consider whether the transmission can be achieved through the reflection of the wireless signal. Que no, it is necessary to consider adding a relay node at the highest point of the obstacle, or forwarding to a place where the transmitter and receiver can have line of sight.

Because the ground transmission distance is 1 a 2 kilómetros, we also need to consider that the earth is round and there is a problem of the earth’s curvature blocking the signal. Por lo tanto, it is also necessary to recommend that users put the antennas at both ends of the transmitter and receiver as high as possible.

If the customer’s transmitter and receiver are both dynamically moving, it will be difficult to set up a relay node on an obstacle. The recommended solution is to fly a drone in the air as a relay node, or consider adding a mobile node in a certain area in the middle, such as installing a node on a car, to relay the signal from the receiver to the transmitter.

If you have similar needs, please tell us your specific needs and we can provide a perfect solution based on your needs.

por un ground rover requiring Non-Line-of-Sight (NLOS) 2-way communication, you need a robust, baja latencia, alta fiabilidad wireless link that can handle obstacles such as buildings, terreno, and foliage.

Requisitos clave & Technologies:

1. COFDM (Multiplexación por división de frecuencia ortogonal codificada)
   • Best for urbano, bosque, or indoor environments.
   • Works well with reflections and multipath interference.
   • Can penetrate obstacles better than traditional point-to-point links.
2. MESH Networks (Mobile Ad-Hoc Networks – MANETA)
   • Autosanación, multi-node networking for moving rovers.
   • Used in military and robotics applications.
   • Compañías como Persistent Systems, DTC (Domo Tactical), and Silvus Technologies offer robust solutions.
3. Radio definida por software (DEG) with Frequency Hopping
   • Customizable frequencies and encryption.
   • Works in L-LANA (1-2 GHz), Banda S (2-4 GHz), Banda c (4-8 GHz), or UHF (300-900 megahercio) for deep penetration.
4. 4G/5G or Private LTE (If infrastructure is available)
   • Brindar baja latencia, de largo alcance conectividad.
   • Works well in urban areas with LTE coverage.
5. Satélite (SATCOM) Enlace (For Extreme NLOS & Long-Range Needs)
   • Suitable for remote operations where ground-based RF isn’t reliable.

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Recommended Communication Systems for a Ground Rover:

Tecnología	Pros	Contras	Example Systems
COFDM Radio	Great for NLOS, baja latencia	Requires specific radio hardware	DTC, vislink, Haivision
MESH Networks (MANETA)	Works in dynamic environments, autosanación	Shorter range per node	Silvus StreamCaster, Persistent Systems MPU5
SDR with FHSS	Custom frequencies, high security	Requires SDR expertise	Ettus USRP, DTC SDR
Private LTE/5G	gran ancho de banda, baja latencia	Needs LTE infrastructure	Nokia Private LTE, Cradlepoint
Satélite (SATCOM)	Works anywhere	High cost, high latency	Starlink, Inmarsat, Iridium

Best Setup for Your Rover:

• Rango corto a medio (1-10 km, Urban/Rural):
  • COFDM radio (DTC, vislink) o MALLA (Silvus, Persistent Systems).
• De largo alcance (10-50 km, Remote Areas):
  • Malla MANET + Antenas de alta ganancia o Custom SDR with Frequency Hopping.
• Extreme NLOS (Beyond 50 km, No Ground Network):
  • Hybrid SATCOM + COFDM Backup.