Your child has probably noted that the sound of the clanging is loud and clear. Water travels faster through water than in the air, and animals that live underwater are able to hear sound clearly. Discuss the results with your child, to teach him or her more about the conduction of sound waves through water.
This paper describes measurements and computational modelling carried out in the MOBI-Kids case-control study to assess the extremely low frequency (ELF) exposure of the brain from use of mobile and cordless phones. Four different communication systems were investigated: Global System for Mobile (GSM), Universal Mobile Telecommunications System (UMTS), Digital Enhanced Cordless Telecommunications (DECT) and Wi-Fi Voice over Internet Protocol (VoIP). The magnetic fields produced by the phones during transmission were measured under controlled laboratory conditions, and an equivalent loop was fitted to the data to produce three-dimensional extrapolations of the field. Computational modelling was then used to calculate the induced current density and electric field strength in the brain resulting from exposure to these magnetic fields. Human voxel phantoms of four different ages were used: 8, 11, 14 and adult. The results indicate that the current densities induced in the brain during DECT calls are likely to be an order of magnitude lower than those generated during GSM calls but over twice that during UMTS calls. The average current density during Wi-Fi VoIP calls was found to be lower than for UMTS by 30%, but the variability across the samples investigated was high. Spectral contributions were important to consider in relation to current density, particularly for DECT phones. This study suggests that the spatial distribution of the ELF induced current densities in brain tissues is determined by the physical characteristics of the phone (in particular battery position) while the amplitude is mainly dependent on communication system, thus providing a feasible basis for assessing ELF exposure in the epidemiological study. The number of phantoms was not large enough to provide definitive evidence of an increase of induced current density with age, but the data that are available suggest that, if present, the effect is likely to be very small.
mobi results of the voice
With cutting edge artificial intelligence upgrading our lives above mediocrity, voice technology emerges out to be the healthcare stalwarts of the future. From handling follow up calls to medical triage, booking appointments, and even diagnosis, VUI (Voice User Interface) is the perfect combination of medical knowledge with technology and tones of conversation to be the voice of the healthcare industry.
Voice assistants like Alexa, Siri, and Google Assistant have opened up a myriad of opportunities that could be infused with the healthcare industries. Voice technology helps you do everything from setting up alarms for shopping online, to keeping track of your daily timetable. More than 30% of online browsing is through voice searches today, and the use of voice-assistant apps for multiple purposes is increasing at an unprecedented rate. Voice e-commerce or voice shopping has reached over $2 billion in value by the end of 2017, and it will be $40 billion by 2022.
Voice-based technology is the future. It is the program that interprets, receives, and carries out the voice commands. It enables the human to interact with technology. Voice-recognition technology is much more than basic voice commands like setting up alarms, providing weather information, and organizing the things in a smart device. It has become a gaining ground to most of the industries for internal and external operations.
A voice that would motivate a patient to give up smoking might be different from the one that is dealing with a patient suffering from coronary diseases. The complexity and humanness of the VUI are what differentiates it from chatbots.
You can use the technology for multiple purposes. For instance, the smart voice tech assistant can help to capture clinical notes, while updating Electronic Medical Records and working silently in the background. It allows medical professionals to focus more on the patients than fill up forms.
Do you know that the global market for voice search devices grew by an astounding 187% in the last three months of 2018? Voice search is getting popular, and so is the demand for quality voice applications for healthcare. A report from Edison Research and NPR shows that 53 million people in the United States own a smart speaker, mostly Amazon Echo or Google Home. Gartner predicted that 30% of web browsing would be via voice by 2030.
Being able to trust the source is essential, and voice tech can help to do just that. Voice apps can help indicate sources quickly, and help people know which sources to trust and which do not. Most voice tech apps work directly with clinicians on the content to ensure better and accurate results.
The patient satisfaction index is directly proportional to the financial performance of hospitals. A report by Deloitte captures that hospitals with a five-star rating generate $444 more revenue per patient. Outpatient facilities are struggling to optimize patient satisfaction index by implementing voice technology for back-office operations.
Intensive Care Unit can be rendered contamination-free, with immediate and hands-free access to information using voice technology. Instead of searching through piles of files, the nurse can simply ask a question to the smart speaker, which would search through the trajectory of documents and reply back. It would also guide the care providers in case of emergency situations. Stay smart, Stay safe.
Taking down notes and retrieving important data can become more manageable. Not only physicians can take down notes through voice, but nurses can also get access to essential patient data with simple voice commands.
Voice apps can ask questions to patients in a bid to help track patient behavior daily. This can, in turn, help monitor patient health better. Also, for medical professionals, voice apps can identify billing codes and offer clinical decision support, saving up more time.
Creating a positive user experience is vital to the healthcare industry. Voice-enabled mobile apps or voice recognition software can help patients with everything from appointment booking to eligibility checks and carrying out back-end tasks efficiently.
By documenting patient interactions, collecting data given to it as dictation from doctors and transcribing those in EMR, voice technology in the examination room of physicians reduce their burnout and allow them to focus more on the diagnosis of pain. They come in the form of mobile-based applications and are hence cost-effective. Sopris Health, MDOps, Kiroku, Tenor.ai convert auditory data to clinical notes, thus relieving the physicians from the stress of paperwork and documentation.
Voice technology helps monitor patients to get real-time insights into their health conditions and relay the same to the doctors. It can persuade the patient to adhere to the prescribed medication, provide suggestions to overcome the adverse side effects of drugs, remind the aged about the regular dosage of medicine and even guide the patient during emergency situations. The smart voice can also prepare personalized care plans for its users.
Reaching out to the entire patient population, handling their appointments, medical triage, booking appointments for their clinical tests can be voluminous a task for the care-providers of the healthcare centres. So why not digitise it? The entire chain of communication and streamlining patients is the onus of voice technology when Orbita wields its smart power.
A 2012 National Health Interview Survey shows that 1 out of 12 children between 3 and 17 years, and about 17.9 million adults have speech disabilities. A World Health Organisation study estimates that 466 million people suffer from hearing impairments. The tryst of voice technology with healthcare, yielding Talkitt, Voxello, VocaliD forms the modern Braille system by comprehending nonstandard speech and providing live subtitles.
Better and improved healthcare industry is on the go to renovate the conventional healthcare modes. Artificial intelligence backed tools, smart and friendly Alexa, voice apps with medical proficiency are dominating the market. The integration of voice technology with the medical arena can bring about revolutionary changes. From understanding patient behavior to comprehending the effects of the drug, recognizing health emergencies and setting up appointments, voice technology will lead to a paradigm shift in the present model of the healthcare industry.
So pull up your socks! The next time you receive a follow-up call from a hospital may not be someone of flesh and blood. It may be a chatbot trained to converse with you and give you pills for a happy and healthy life. Talk to one of our representatives to integrate customized voice technology solutions for your business.
Shailendra Sinhasane (Shail) is the co-founder and CEO of Mobisoft Infotech. He has been focused on cloud solutions, mobile strategy, cross-platform development, IoT innovations and advising healthcare startups in building scalable products.
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