1. ST. MICHAELIS CHURCH, HUMBURG, GERMANY
Panoramic Video, Video Augmentation, 3D modeling
To illustrate the capabilities of the system and its extended features let us have a look at St. Michaelis Cathedral in Hamburg, a project where we have installed 8 cameras on the tower to broadcast live a panorama of the city accessible through the Internet. . Four additional cameras were installed inside the church to allow online visitors to attend weddings and worshippers to attend church services.
Our technology works with the multiple media streams simultaneously - mix, analyze and augment them in real time. Whether you are broadcasting an event and want to edit it on the go or want to introduce user-relevant advertising content – our system makes it possible for you in a cost-effective manner.
In this particular project an advertising firm from Hamburg is sending streams of video advertisement to our servers and we are augmenting Panoramic Video of the city for each viewer with floating advertisement above highlighted business buildings.
In the framework of St. Michaelis Cathedral project we are having virtual excursions: a visitor can virtually be and move inside the cathedral, meanwhile we can also combine panoramic objects with text and audio files.
2. SATELLITE IP CAMERA PROJECT FOR MINISTRY OF TRANSPORTATION ONTARIO, CANADA
Smart Surveillance System, Artificial Intelligence
Using the innovative technology provided by eFactorLabs Inc., deploying Satellite internet, solar and wind power generators, data sensors and Autonomous Management system allowed Ministry of Transportation of Ontario to remove the need for expensive power, communications infrastructure, on-site maintenance and management.
This technology proved to result in several forms of operational efficiencies:
• Increase the coverage across the province because new installations can be added at a fraction of the cost of conventional technology.
• Largely reduce cost and time lines in both installation of new stations and the rehabilitation of existing stations where operations have been disrupted.
• The information will be shared with such partners as the OPP, emergency services and municipalities.
• Autonomous management system, user-friendly Web application reflecting fluctuations of readings from data sensors and decision making system gives a huge cost savings by predicting possible problems, dynamically adjusting system running mode (temperature, power, ventilation, etc..) and therefore drastically reducing on-site maintenance hours.
• Substitution of solar and wind power for conventional power consumption of the regional power grid.
• Massive savings from substitution for conventional installation technology such as trenching, erection of hydro poles, communications and transformers.
• Installations help traffic managers reduce congestion and fuel consumption.
• It is technically feasible to add video incident detection, vehicle detector and on-site variable message signs to the system configuration, together constituting FAST, LIGHT and LOW-COST Advanced Traffic Management System deployment ANYWHERE on the transportation network.
At the moment this system is being tested 500 km from Toronto at HWY 400 and HWY 89 at Cookstown.