BlueEye is a mobile, point-of-view wireless video communications platform. BlueEye connects the emergency doctor in the hospital with the paramedic at a remote patient site. The paramedic wears a video camera near his temple which sends live video to the hospital. The ergonomic design and lightweight hardware makes the video camera easy to wear and use in an emergency. The doctor in the hospital can see the patient during the critical golden hour, giving senior medical support and help with pre-hospital diagnosis, treatment and oversight. The doctor can also speak with the paramedic and patient.

BlueEye is a synthesis of all the necessary technical ingredients to provide a complete solution for first responders to communicate by wearable video. The solution consists of video glasses or video headset with integrated high-definition camera, using a ruggedised smart phone for mobile connection.

Wearable CameraRedZinc has designed dedicated lightweight camera which is ergonomically suited to mobile working environment and sits on the head (using headset or safety glasses). It is light weight and comfortable. The BlueEye camera headset/ glasses does not impact the vision of the user unlike some augmented reality and other devices with screens.
Public WirelessThe BlueEye platform is designed to today’s 4G public wireless and the coming 5G networks which are expected to launch in 2020 in the mass market. The platform also supports the upcoming ambition for emergency networks to support video. BlueEye works with public wireless and is independent of local wifi networks.
Network SliceThe BlueEye platform uses Network Slicing which is a disruptive innovation in telecoms infrastructure. Slicing is the way new public wireless networks are being built, in an agile way, with software replacing inflexible hardware-based networks giving privacy and quality of service to each customer. Slicing reduces cost of deployment and time to deployment and enables a plug and play approach for networking infrastructure. Using plug and play RedZinc can rapidly launch additional features into the 5G network based on evolving customer requirements.

Want to learn how BlueEye platform works? Watch video below:

Improving the efficiency and reliability of wearable based mobile eHealth applications

Please fill this form to dowload the paper:

Name *

Email *

Learn about the support of wearable mHealth applications in LTE and future 5G networks following a holistic approach that spans across the elements of a mobile network.

Published by Pervasive and Mobile Computing.

5G Exchange (5GEx) Multi-domain Orchestration for Software Defined Infrastructures

Learn about the 5G Exchange (5GEx) project which aims to enable collaboration between operators, regarding 5G infrastructure services, with the view to introducing a unification via NFV/SDN compatible software defined infrastructure multi-domain orchestration for networks, clouds and services.

Please fill this form to dowload the paper:

Name *

Email *

An end-to-end testing ecosystem for 5G the TRIANGLE testing house test bed

Learn about the EU project TRIANGLE which builds a framework to help app developers and device manufacturers in the evolving 5Gsector to test and benchmark new mobile applications, devices, and services utilizing existing and extended FIRE testbeds.

Please fill this form to dowload the paper:

Name *

Email *

Q4HEALTH: Quality of Service and prioritisation for emergency services in the LTE RAN stack

Learn how the Q4HEALTH project prepares for the market and optimize the BlueEye system, a video service platform for first responders.

Please fill this form to dowload the paper:

Name *

Email *

Q4Health: Mission critical communications over LTE and future 5G technologies

Learn how the Q4HEALTH project prepares for the market and optimize the BlueEye system, a video service platform for first responders.

Please fill this form to dowload the paper:

Name *

Email *

CityFlow, enabling quality of service in the Internet: Opportunities, challenges, and experimentation

Learn about an OpenFlow enabled Internet infrastructure, using visual path slicing in an end-to-end path, so that any user connected to an OpenFlow network is dynamically allocated a corresponding right of way.

Please fill this form to dowload the paper:

Name *

Email *

Supporting New Application and Services over LTE Public Safety Networks

Learn about new services that might be beneficial for emergency situations as well as the major challenges that have to be addressed by public safety LTE networks to maintain communications in these situations.

Please fill this form to dowload the paper:

Name *

Email *