The original embedded antennas in cell phones did more to change the course of history than many people know. Without them, we would not be able to add any applications to our cell phones and mainstream cellular devices would not be able to exist the way they do today. With embedded antennas, the world is able to experience a cell phone that has three to four antennas built into its design, each picking up a different operational frequency: one for standard talking capabilities, one for GPS that used to require a separate device, and more for other specific functionalities that require additional bandwidth.
The IINNTENNA is the innovative solution to the wall blocking us from revolutionizing advancement in mobile handsets once again. While Dr. Sanad was directly responsible for internalizing antennas decades ago with Nokia, he has now created another solution that will revolutionize antennas as we know them. With the IINNTENNA, there will no longer be a need for the three to four embedded antennas we see in phones today because it can do much more in a singular form. The capabilities of cell phones will be limitless as the industry begins to integrate the technology. With increased speeds, gain, distance, and more, the IINNTENNA is the answer to new heights and progress in revolutionary technological advancements across the board.
We offer customized application solutions to improve your mobile handset’s performance on all physical and RF fronts. Once we reach the optimal design solution based on your specific needs, run performance and user experience testing in your labs (or any lab of your choice), and address each of your concerns in advancing your technology together, we offer licensing and manufacturing options to complete your full scale solution. Contact us for a commitment-free consultation today.
Within the mobile handset application of the IINNTENNA, you and your device users will benefit from the following innovative qualities:
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A collection of educational opportunities that are tailored for undergraduate or medical interns.
In vitro study of axial pullout of pedicle screws.
Authors: Wu Z, Wang J, Nassar Sa, Dai K, Li M, Li Y.. Sha Ja, Yang X.
Presented in "the 10th national biomechanics conference and the 12th national biological rheology conference, chengdu, china, oct 11-15, 2012"
Use of Colloidal Oatmeal Soap Can Reduce Symptoms of Atopic Dermatitis Topical colloidal oatmeal (CO) can reduce local inflammation, itching, and a number of other indications, at low cost and with minimal side effects.
Topical colloidal oatmeal (CO) can reduce local inflammation, itching, and a number of other indications, at low cost and with minimal side effects.
Insight Research Institute conducted a study to test whether the addition of CO to cold-processed vegetable oil soap could significantly clear overt symptoms of atopic eczema within two weeks of use. Our results showed soothing, anti-inflammatory, and anti-pruritic effects suggesting the efficacy of using this soap as a treatment for atopic dermatitis.
A self-contained, low-cost, lightweight, foldable/deployable or small-sized, multi-broadband antenna that has been invented and developed by world-renowned antenna scientist and R&D specialist Mohamed Sanad Ph.D., Faculty of Engineering at Cairo University.
Photocatalytic Reactor to Control Methicillin-resistant Staphylococcus aureus (MRSA) in a Hospital Environment.
Improved control and reduction of healthcare-associated infections (HAI) are perpetual concerns in hospitals and other healthcare settings, including non-hospital residential facilities such as nursing homes and correctional facilities.
A recent review of epidemiological studies on the incidence of MRSA infections has indicated that taken as a whole, there may be no definitive evidence that their incidence is declining significantly. Indeed, contradictions between source studies suggest the need for a comprehensive tracking system, while underscoring the motivation to perform such studies, i.e., nosocomial infections, including MRSA, Clostridium difficile, and others, undermine the therapeutic mission of healthcare facilities. The advent of antibiotic-resistant bacterial strains illustrates pathogens’ persistence in the face of powerful, highly specific chemical agents.
At Insight Research Institute, we are evaluating the safety and effectiveness of a device that produces oxygen-free radicals on sample slides containing MRSA in hospital patient rooms. Our preliminary results are promising and showing a reduction in some types of infections.