By adopting Power Over Wireless technology portable communication can be made available on a continuous and reliable basis. Laptops will go from an average of 4 hours to 24 hour power supply. Fully utilising the capabilities of wireless technology, increasing there effectiveness and there return on investment for businesses. Cell phones will be able to be charged without the necessity of nuisance cables. Homes, hotels and offices will be able to host charging tablets which are used to charge mobile devices once they simply placed on them.
Power Over Wireless also enables power supply's to be converged, with devices able to be powered from other portable devices. For example, sports fitness monitors will be able to charged by portable charging pods surrounding the athletics track. This opens a whole new area of sporting communication tools, such as tracking devices on sports equipment, charged by a wireless power supply.
Remote power generation (solar power, wind) can also be utilised to sustain electronic communication in remote areas. For example a base camp on a mountaineering expedition will be able to produce its own electricity supply and transmit the power to the communication devices of the mountaineering team. Not only powering the portable devices during the day time but charging them through the night. Areas of devastation following an earthquake, hurricane or tsunami can also deploy remote power generation and power over wireless technology to help deploy recovery aid to devastated areas.
A form of Power Over Wireless is already at work in the home, the humble electric toothbrush is recharged via a contact coupling. When placed on its base electricity is transferred from its base unit through to the toothbrush unit. This form of contact recharging can be applied to a number of other household applications. The vacuum cleaner will be able to sit in a charging bay, when not in use the vacuum cleaner will be charged to create a wireless unit. Releasing it from its mains cable which means that the home can be vacuumed seamlessly without the need for plugging in and unplugging in the mains cable in different rooms.
Saving chemically stored battery space also allows for the design and manufacture of smaller, more robust robot units. Currently in development by a number of Japanese companies are domestic robot units, why not use Power Over Wireless technology to converge these robot technology's into one single unit. Include the vacuum at the base of the domestic robot unit is able to not only vacuum but empty its own contents.
Nano-technology promises massive potential in helping to cure a number of illnesses. These minute electrical units can be charged via low frequency, low power supply of electricity sent wirelessly from a pod within the operating theatre. This technology can be filtered down to a series of health uses. Portable monitoring units can be used on a 24/7 basis within a hospital. Electrical surgical instruments will be available for more effective surgery.
These are examples where the development of Power Over Wireless technology can be a real aid to the basic necessities of human life, helping doctors to treat human conditions with a revolutionary approach.
Transportation offers the best environmental carbon emission deductions as Pover Over Wireless technology helps support the rollout of electric powered vehicles.
The car also offers the potential to become a reliable power source for mobile communication devices. Cars will be able to carry a concealed charging pad able to charge laptops, cell phones and PDA's without the necessity of cables.
Return on investment is crucial to any business and flexible, effective resources are essential for maintained output. All this can be necessitated by Power Over Wireless technology. A charging pod in the ceiling of a warehouse can ensure forklifts can be used 24/7. Staff can work completely remotely throughout the building via laptops and cell phones powered wirelessly.
The results of wireless power can be far reaching, yielding spontaneity and increased freedom of movement. Cities will be able to host power emitters which power laptops and other devices. Leaving a conventional chemically stored power for countryside and other remote places. This form of flexible power supply can be provided to all industries from a mobile sales person through to the emergency services. Revoltionising the way we use and benefit from technology.
Security, a camera could be placed anywhere in a building or relocated without the need of re-wiring. This approach to flexible use of technology is the principal behind Power Over Wireless.
Based upon this principal an entire business has the ability to work flexibly within a building, seasonal changes in workload and output can be managed far more effectively than existing methods. For example, the machinery of an entire manufacturing shop floor will be able to be relocated to meet an increase in demand. A retail shop will be able re-organise its layout to meet customer needs during the Christmas rush.
RFID (Radio Frequency Identification) will also be powered wirelessly enabling indentification chips to become more powefl, storing more information and reducing the amonut of stock handling.