The goTenna Pro X networking device is an off-grid solution for professionals and teams to use out in the field where connectivity might be limited to keep them in contact. The device works without the need for cellular, WiFi or satellite connectivity and works thanks to a 5W radio frequency transmitter that promises end-to-end encryption for private communications at all times. The powerful connectivity of the device will even work in extreme conditions to ensure that communication lines are always open between team members.
The goTenna Pro X networking device works with Android and iOS devices as well as smartphones running other operating systems to provide real-time tracking, off-grid messaging, map marking and more. The device will offer up to 30 hours of use per charge to keep it running for multiple work days, if required.
The goTenna Pro X Provides Remote Connectivity When it's Needed Most
1. Off-grid Communication - The goTenna Pro X provides a solution for professionals and teams to stay connected in areas where connectivity is limited, presenting opportunities for further development of off-grid communication technologies.
2. End-to-end Encryption - The goTenna Pro X's focus on offering end-to-end encryption for private communications presents opportunities for development in secure communication technologies.
3. Real-time Tracking and Map Marking - The goTenna Pro X's features that allow for real-time tracking and map marking present opportunities for development in location-based services that operate offline.
1. Military and Defense - The goTenna Pro X can be used in military and defense settings where secure, off-grid communication is essential for success.
2. Emergency Services - The goTenna Pro X can be used by emergency services to stay connected and coordinate efforts in areas where traditional communication methods may be down.
3. Outdoor and Adventure - The goTenna Pro X can be used by outdoor enthusiasts and adventure seekers in areas without reliable communication to stay in touch and share their location in real-time.