Examples of applications...
High Speed Internet delivery
RDPP can be used for delivering High Speed Internet access to areas that need a network TCPIP base infrastructure to send and receive data. Also RDPP does not need, or depend, on any kind of other infrastructure to operate. A minimum of two units is needed to get started on a RDPP network and then neighbor by neighbor, you watch it grow as it gets more reliable with the volume of units.
Most of the non metropolitan regions have access to internet via the normal conventional modem 56 KB. This is a problem of infrastructure and cost for the big telecom companies. First they have to invest in modernizing there switch and all the hardware in between. Also, in most cases like DSL they have to be at a certain maximum distance (5 miles) of the client to be able to serve a high speed internet access.
With a RDPP network as long as you have one internet connection you can deploy it over miles using each unit as your infrastructure cost witch is shareable by all members of the RDPP network (low cost & high reliability).
Click
here for a schema example of deploying high speed Internet in the suburbs.
A restricted area would be a place that is difficult of access either by cabling or by RF. Like an old building that doesn’t have the infrastructure needed or an electric tunnel where passing a cable would be too risky or too damageable or where
there is poor RF signal. We can think of campuses or even submarines and underground cities or shopping centers and so on.
In those cases people or devices move from one place to another. They wouldn't need to be always reconnected to their own connection every time they change space; this could save time and money.
Covering this area for RDPP is not a great challenge, since it can use its relaying function ability with others, to go everywhere even in a non eye site situation. And since the routing is intelligently and dynamically done, things can move without the network traffic being disturbed and stay connected.
When Mother Nature takes it course, like in an earthquake, the first thing that comes down is the communication. Our technology can be helpful by keeping the rescue teem in communication together and building a communication link to the base.
RDPP software can be put in a low power consumption portable device using a wireless technology and being able to relay its signal to any other moving point of its own network. This is the fastest way to build a network; as help arrives. As the rescue teem comes to help, at the same time they are building a RDPP network that can be used to transmit any sort of TCPIP data (voice, video or any kind of data)
Delivering an Internet connection in the taxi while waiting in the traffic, and this, within the metropolitan areas. Nowadays, the cities have less and less parking spaces in their downtown area, and more and more people are taking the taxi instead of their car to go different meeting in the same city. Those same people don’t necessary want to spend their time in the taxi and having a conversation with the driver that sometime don’t understands a word that you are saying. That business man would prefer to be occupied by looking at his email or browsing the net while waiting. He could do that either by using the taxi equipment or by connecting his own device. This would be made exactly the same way as we would have done in restricted area example; the restricted area would be the metropolitan area.
Providing wireless TCPIP publicity to taxis, buses, billboards, shopping centers and change them all at the same time. Synchronizing billboard publicity at the same time in a different media (TCPIP deliver) nationwide and even worldwide is a way of bring publicity from the internet to the human world. As an advantage over the other medium of advertisement, it could also provide in shopping centers a two-way marketing (marketing with personalized information and gathering up information about clients - let’s say the number of person passing by or using something). This will create, another, publicity medium.
The basic RDPP unit can be easily connected to other device like a camera or any other via USB, network or comm. port. CANORAWAVE is dedicated to create or integrate software drivers to operate those devices.
So, armed with a camera the unit built with RDPP could be used as a wireless camera. With a sensor it could detect any activity that occurs and reports them. Equipped with a vocal recognition system it could control the temperature, lights and even permit’s you to answer the telephone remotely. The fact that every sensor is independent and physically unattached to the master control; it is difficult to follow the route to it, or disabling it or arm the master control.
Click here for a schema example of a home automation.
It depends of the consumer’s needs but there are all sorts of devices that can be connected to the RDPP and/or the RDPP can also be incorporated in all sorts of devices since it is a software that use pure TCPIP.