The benefits of remote laboratories are predominantly in engineering education:^[2]

• Relax time constraints, adapting to pace of each student, if there was insufficient time in lab
• Relax geographical constraints, disregarding the physical locality of the student
• Economies of scale, as sharing labs allows sharing of large fixed costs of traditional buildings
• Improve quality of experiment, as it can be repeated to clarify doubtful measurements in lab
• Improve effectiveness, as student may improve effectiveness of time spent at lab by rehearsal
• Improved safety and security, as no risk of catastrophic failure

Researchers from the Labshare describe the advantages as being:

• Increasing accessibility to laboratories by a factor of 4 within 3 years, since current lab utilization is less than 10%
• Decrease fixed and variable expenditure by 50%, since faculty budget spends between 15 and 40% on lab infrastructure and personnel, around $400m per year
• Improve learning objectives and outcomes to support better learning
• Enhance sharing of knowledge, expertise and experience
• Reduce start-up costs of laboratories

This allows for economies of scale production.

Another benefit is that this technology can be integrated into Moodle,^[3] which is probably the most used learning management system around the world.

The disadvantages differ depending on the type of remote laboratory and the topic area. The general disadvantages compared to a proximal (hands on) laboratory are:

• Lack of hands on trouble shooting and debugging experience.
• Lack of equipment setup experience.

Current system capabilities include:

• Online session booking, utilizing a database and online interface
• Authentication to satisfy security requirements
• Desktop, generalized screen for chat, emoticon, time limit, bandwidth limit
• Live lab camera which allows panning, tilting, zooming, showing, hiding, refresh
• Circuit builder (this is just simulative)
• Function generator (this is just simulative)
• Digital multimeter (this is just simulative)
• Oscilloscope (this is just simulative)

• iLabs

• Edrys
• Remote Electronic eXtensions
• Smart Adaptive Remote Laboratory SARL
• Labwork
• Remote Laboratory, The Hong Kong Polytechnic University
• FARLabs
• Labicom
• Netlab from the University of South Australia
• LabsLand: global network of remote laboratories
• Labshare
• Labster
• MIT iCampus iLabs from Massachusetts Institute of Technology and wiki
• netCIRCUITlabs
• Remote Labs from the University of Technology Sydney
• Remotely controlled lab from the Palacký University of Olomouc
• iLabs from the University of Queensland
• iSES internet School Experiment System
• LiLa project - Library of Labs
• Online-Lab, Carinthia
• UWA Telerobot
• WebLab, University of Deusto
• iLough-Lab, University of Loughborough
• Remote Engineering and Virtual Instrumentation
• Remote Labs in Modern Physics, University of California, Santa Barbara
• International Journal of Online Engineering
• Free Open Online Labs
• Remote Operation of Engineering Labs - University of Tennessee at Chattanooga
• Remote Internet Lab GymKT (the Grammar-school of J. Vrchlicky), Klatovy
• VISIR (Virtual Instrument Systems In Reality) - Blekinge Institute of Technology
• Remote Experimentation Lab - RExLab from the Federal University of Santa Catarina
• Remote Labs Learning Environment - RELLE
• University Network of Interactive Labs Spanish Open University
• Moodle EJSApp and Extensions Set for Virtual and Remote Laboratories
• R-DSP Lab, University of Patras
• Remotely Controlled Laboratory, University of Technology Kaiserslautern
• Robotic DistanceLab
• Internet microscope/Magnetic domain investigate, Physics Faculty, University at Białystok,Poland, since 1999
• Social Proton