Remote diagnostics is the act of diagnosing a given symptom, issue or problem from a distance. Instead of the subject being co-located with the person or system done diagnostics, with remote diagnostics the subjects can be separated by physical distance (e.g., Earth-Moon). Important information is exchanged either through wire or wireless.
When limiting to systems, a general accepted definition is: "To improve reliability of vital or capital-intensive installations and reduce the maintenance costs by avoiding unplanned maintenance, by monitoring the condition of the system remotely."
Remote diagnostics and maintenance refers to both the diagnosis of faults and the ability to take corrective actions, such as changing settings, updating software, or adjusting system parameters to improve performance and prevent problems such as breakdown, wear, or failure. RDM enables specialists to access equipment from a central location, reducing the need for on-site personnel and helping to avoid hazardous or inaccessible environments.
As machinery and software systems become more complex and globally distributed, remote engineering reduces the need for travel by experienced and costly technical staff. In the automotive industry, remote diagnostics is commonly used for electronic control unit programming, software updates, and advanced driver-assistance system (ADAS) calibration. Workshops and fleet operators may connect vehicles to remote engineering platforms, allowing specialist technicians to perform diagnostic procedures and configuration tasks without being physically present , particularly when manufacturer-level tools, security access, or specialist knowledge are required.