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What Is Mobile Technology In Healthcare?

What Is Mobile Technology In Healthcare
What Is Mobile Health? – Mobile health uses tech devices to monitor health, gather health-related data, and provide remote care. This allows nurse leaders, physicians, and patients to build and maintain health and wellness strategies outside a clinical setting.

What is meant by mobile technology?

What is mobile technology? | IBM What is mobile technology? Communicate, collaborate and create using mobile devices Subscribe to the IBM Newsletter Learn about BYOD with MaaS360 with Watson What is mobile technology? Mobile technology is technology that goes where the user goes. It consists of portable two-way communications devices, computing devices and the networking technology that connects them. Currently, mobile technology is typified by internet-enabled devices like smartphones, tablets and watches.

These are the latest in a progression that includes two-way pagers, notebook computers, mobile telephones (flip phones), GPS-navigation devices and more. The communications networks that connect these devices are loosely termed wireless technologies. They enable mobile devices to share voice, data and applications (mobile apps).

Mobile technology is pervasive and growing. The number of smartphone users has climbed beyond 3 billion and the global mobile workforce is expected to reach 1.87 billion by 2022. Cellular networks Radio networks using distributed cell towers that enable mobile devices (cell phones) to switch frequencies automatically and communicate without interruption across large geographic areas.

The same basic switching capability enables cellular networks to accommodate many users across a limited number of radio frequencies.4G networking The current cellular service standard for most wireless communication. It uses packet switching technology, which organizes data into parts or packets for transmission and reassembles the information at the destination.4G – “G” for generation — is reported to be 10x faster than 3G — and 5G, faster still, is coming.5G uses a set of aggregated frequency bands to unlock bandwidth and is approximately 20x faster than 4G.

WiFi Radio waves that connect devices to the internet through localized routers called hotspots. Short for wireless fidelity, WiFi networks are like cell towers for internet access, but they don’t automatically pass service without establishing a WiFi connection.

Most mobile devices allow for automatic switching between Wi-Fi and cellular networks depending upon availability and user preference. Bluetooth A telecommunications industry specification for connecting devices over short distances using short-wavelength radio waves. Bluetooth enables users to quickly connect or pair devices such as headsets, speakers, phones and other devices.5G is the fifth generation of cellular wireless technology.

Like 4G, it uses frequencies that are part of the radio spectrum, but 5G uses very high frequencies that offer more bandwidth. This means more data delivered at higher speeds to more devices. Imagine video streaming to a smartphone., 5G will “improve that experience by making it 10x better not just for one individual, but for anyone streaming a video at the same time.” Switching to 5G? Know Your Integrated Security Controls Get a guide to the transformational potential of 5G Mobile technology case studies Increase productivity Using its Road Day mobile app to upload claims information from the field, achieved 25 to 50 percent estimated productivity gains for its workflow processes.

  1. The app enables adjusters to collaborate closely with customers in the field, improving the accuracy of claims and helping customers feel more involved.
  2. Read more and watch the video Capitalize on new business models Frogs are disappearing in Australia — 4 of the 240 known species.
  3. To protect them, scientists needed a faster data-gathering model.

Part of a crowd-sourcing approach, the enables Australians to make audio recordings of frogs’ unique calls and upload them to an online database. The app also uses GPS coordinates to map frog populations. Read the case study Create the ideal shopping scenario uses mobile technology to create an almost ideal shopping experience.

Customers can combine online research with the ability to physically touch items and interact with sales personnel. The mobile app used by sales associates on their tablets accesses real-time data, processes payments and schedules deliveries — all without leaving the customer’s side. Read more and watch the video Key capabilities of effective mobile technology Scalability: Creating point solutions that don’t scale across an enterprise can be costly in terms of development, management and maintenance.

Apps need to be conceived holistically with consideration for lines of business, processes and technical environments. Integration: Being able to connect logic and data services to the app is critical, whether the logic and data are on premises, on the cloud or in hybrid configurations.

Reuse: Over 105 billion mobile apps were downloaded in 2018. Many are, or can be modified or combined, for business applications. Using existing apps accelerates time-to-value and improves cost efficiency by taking advantage of domain and industry expertise built into the app. Cloud-based development: The cloud offers an efficient platform to develop, test and manage applications.

Developers can use application programming interfaces (API) to connect apps to back-end data and focus on front-end functions. They can add authentication to bolster security, and access artificial intelligence (AI) and cognitive services. Mobility management: As mobile technology is deployed, organizations look to enterprise mobility management (EMM) solutions to configure devices and apps; track device usage and inventories; control and protect data; and support and troubleshoot issues.

  • BYOD: Bring your own device (BYOD) is an IT policy that allows employees to use personal devices to access data and systems.
  • Effectively adopted, BYOD can improve productivity, increase employee satisfaction and save money.
  • At the same time, it presents security and device management questions that need to be addressed.

Security: The mobile security battle is daunting in terms of volume and complexity. Artificial Intelligence (AI) is emerging as a key weapon to discern security anomalies in vast amounts of data. It can help surface and remediate malware incidents or recommend actions to meet regulatory requirements from a central dashboard.

  1. Edge computing: One of the key advantages of 5G is that it can bring applications closer to their data sources or edge servers.
  2. Proximity to data at its source can deliver network benefits such as improved response times and better bandwidth availability.
  3. From a business perspective, offers the opportunity to perform more comprehensive data analysis and gain deeper insights faster.

Set up for 5G and edge: Read the blog Related Solutions Manage mobile devices Secure and careful management of mobile devices, content and apps is imperative — whether for a specific operating system, multiple device types or a mixed environment. Improve mobile device management Simplify support of mobile environments Move from mobile device management (MDM) to unified endpoint management (UEM).

  • Use cloud, AI and analytics to support a complex endpoint and mobile environment.
  • Explore UEM and a cloud approach Elevate mobile experiences by design Design thinking, data, technology and creativity can come together to develop enhanced, engaging mobile experiences.
  • A key is finding the right partner.

Discover IBM iX : What is mobile technology? | IBM

What does mobile mean in health?

mHealth (mobile health) is a general term for the use of mobile phones and other wireless technology in medical care. The most common application of mHealth is the use of mobile devices to educate consumers about preventive healthcare services, However, mHealth is also used for disease surveillance, treatment support, epidemic outbreak tracking and chronic disease management.

What is the use of mobile phone in hospital?

While AMTA recommends that people should turn off their mobile phones when requested by hospitals, there is little evidence of interference with medical equipment in general use. In fact many hospitals are using wireless technology to reduce medical errors, improve quality of patient care, enhance efficiency and decrease costs.

Hospitals originally banned phones due to anecdotal evidence that they could interfere with monitors and pacemakers. However, major health and hospital advisory bodies such as the American Medical Association (AMA) and the UK Medicines and Healthcare products Regulatory Agency (MHRA) do not presently condone blanket bans on using mobile phones in hospitals.

Instead, both organisations encourage hospitals to develop local guidelines to minimise the risk of interference, by taking into account local circumstances, including the location of sensitive medical equipment. The MHRA has stated: The Agency does not recommend a blanket ban on the use of mobile phones in hospitals, recognising that they are in everyday use and provide practical means of communication for people.

  1. More over, there are a number of benefits of allowing mobile phones in hospitals.
  2. Many patients suffer isolation while in hospital and are unable to contact their relatives or businesses to inform them about their condition or when they may be discharged.
  3. Mobile phones can assist patients to communicate with loved ones.

Whether you are medical staff, a patient or a visitor, mobile phones can be extremely useful in hospitals. However, it is always important to be respectful and considerate of other people. Here are some tips on using your mobile in a hospital:

Only use your mobile phone in designated areas. Research shows that it is unlikely mobile phones will interfere with medical equipment unless in extremely close proximity. However it is still important to follow hospital policy. There are some places where you may not be able to take or use your phone and signs should clearly indicate where mobile phones can and cannot be used. However if in doubt, ask a staff member. Turn your phone to silent so you don’t disturb others. Respect the privacy of other patients and staff members when taking photos, especially any that you are intending to share on social media.

What is an example of a mobile device?

Definition(s): A portable computing device that: (i) has a small form factor such that it can easily be carried by a single individual; (ii) is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); (iii) possesses local, non-removable data storage; and (iv) is powered-on for extended periods of time with a self-contained power source.

  • Mobile devices may also include voice communication capabilities, on board sensors that allow the device to capture (e.g., photograph, video, record, or determine location) information, and/or built-in features for synchronizing local data with remote locations.
  • Examples include smart phones, tablets, and E-readers.

Note: If the device only has storage capability and is not capable of processing or transmitting/receiving information, then it is considered a portable storage device, not a mobile device. See portable storage device. Source(s): CNSSI 4009-2015 A mobile device is a small hand-held device that has a display screen with touch input and/or a QWERTY keyboard and may provide users with telephony capabilities.

  1. Mobile devices are used interchangeably (phones, tablets) throughout this document.
  2. Source(s): NIST SP 800-101 Rev.1 under Mobile Devices A portable computing device that: (i) has a small form factor such that it can easily be carried by a single individual; (ii) is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); (iii) possesses local, non-removable or removable data storage; and (iv) includes a self-contained power source.

Mobile devices may also include voice communication capabilities, on-board sensors that allow the devices to capture information, and/or built-in features for synchronizing local data with remote locations. Examples include smart phones, tablets, and e-readers.

Source(s): NIST SP 800-157 under Mobile Device A mobile device, for the purpose of this document is a portable computing device that: (i) has a small form factor such that it can easily be carried by a single individual; (ii) is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); (iii) possesses local, non-removable or removable data storage; and (iv) includes a self-contained power source.

Mobile devices may also include voice communication capabilities, on-board sensors that allow the devices to capture information, and/or built-in features for synchronizing local data with remote locations. Examples include smart phones, tablets, and e-readers.

Source(s): NIST SP 800-79-2 under Mobile Device A portable computing device that (1) has a small form factor so it can easily be carried by a single individual; (2) is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); (3) possesses local, nonremovable or removable data storage; and (4) includes a self-contained power source.

Mobile devices may also include voice communication capabilities, onboard sensors that allow the devices to capture information, and/or built-in features for synchronizing local data with remote locations. Examples are smartphones, tablets, and e-readers.

Source(s): NIST SP 1800-12b A portable computing device that: (i) has a small form factor such that it can easily be carried by a single individual; (ii) is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); (iii) possesses local, non-removable or removable data storage; and (iv) includes a self-contained power source.

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Mobile devices may also include voice communication capabilities, on-board sensors that allow the devices to capture information, and/or built-in features for synchronizing local data with remote locations. Examples include smart phones, tablets, and E-readers.

Source(s): NIST SP 1800-21B under Mobile Device A portable computing device that has a small form factor such that it can easily be carried by a single individual; is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); possesses local, non-removable data storage; and is powered on for extended periods of time with a self-contained power source.

Mobile devices may also include voice communication capabilities, on-board sensors that allow the device to capture (e.g., photograph, video, record, or determine location) information, and/or built-in features for synchronizing local data with remote locations.

  • Examples include smart phones, tablets, and e-readers.
  • Source(s): NIST SP 800-53 Rev.5 A portable computing device that has a small form factor such that it can easily be carried by a single individual, is designed to operate without a physical connection (e.g., wirelessly transmit or receive information), possesses local, non-removable or removable data storage, and includes a self-contained power source.

Mobile devices may also include voice communication capabilities, on-board sensors that allow the devices to capture information, or built-in features that synchronize local data with remote locations. Examples include smartphones, tablets, and E-readers.

Source(s): NIST SP 800-172 A portable computing device that has a small form factor such that it can easily be carried by a single individual; is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); possesses local, non-removable/removable data storage; and includes a self-contained power source.

Mobile devices may also include voice communication capabilities, on-board sensors that allow the devices to capture information, or built-in features that synchronize local data with remote locations. Examples include smartphones, tablets, and E-readers.

What are the 4 mobile technologies?

Different Types of Mobile Technologies – What are the different mobile technologies? There are four main types of mobile networks – cellular communication, 4G networking, Wi-Fi, and Bluetooth connections. Below is an in-depth analysis of the different types of mobile technologies.

Is a mobile app a medical device?

This list provides examples of software functions to illustrate the types of mobile apps that could be used in a health care environment, in clinical care or patient management, but are not considered medical devices. Because these mobile apps are not considered medical devices, the FDA does not regulate them.

  • The FDA understands that there may be other unique and innovative mobile apps that may not be covered in this list that may also constitute health care related mobile apps.
  • This list is not exhaustive ; it is only intended to provide clarity and assistance in identifying when a mobile app is not considered to be a medical device.

Appendix A in the guidance includes examples of software functions not considered medical devices at the time the guidance was finalized. As part of the FDA’s ongoing effort to provide clarity to mobile app manufacturers this page includes all examples in Appendix A as well as updates with additional examples.

  1. Software functions that are intended to provide access to electronic “copies” (for example, e-books, audio books) of medical textbooks or other reference materials with generic text search capabilities – These are not devices because these apps are intended to be used as reference materials and are not intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease by facilitating a health professional’s assessment of a specific patient, replacing the judgment of clinical personnel, or performing any clinical assessment. Examples include mobile apps that are:
    • Medical dictionaries;
    • Electronic copies of medical textbooks or literature articles such as the Physician’s Desk Reference or Diagnostic and Statistical Manual of Mental Disorders (DSM);
    • Library of clinical descriptions for diseases and conditions;
    • Encyclopedia of first-aid or emergency care information;
    • Medical abbreviations and definitions; and
    • Translations of medical terms across multiple languages.
  2. Software functions that are intended for health care professionals to use as educational tools for medical training or to reinforce training previously received – These may have more functionality than providing an electronic copy of text (for example, videos, interactive diagrams), but are not devices because they are intended generally for user education and are not intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease by facilitating a health professional’s assessment of a specific patient, replacing the judgment of clinical personnel, or performing any clinical assessment. Examples include mobile apps that are:
    • Medical flash cards with medical images, pictures, graphs, etc.;
    • Question/Answer quiz apps;
    • Interactive anatomy diagrams or videos;
    • Surgical training videos;
    • Medical board certification or recertification preparation apps; and
    • Games that simulate various cardiac arrest scenarios to train health professionals in advanced cardiopulmonary resuscitation (CPR) skills.
  3. Software functions that are intended for general patient education and facilitate patient access to commonly used reference information – These apps can be patient-specific (that is, filters information to patient-specific characteristics), but are intended for increased patient awareness, education, and empowerment, and ultimately support patient-centered health care. These are not devices because they are intended generally for patient education, and are not intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease by aiding clinical decision-making (that is, to facilitate a health professional’s assessment of a specific patient, replace the judgment of a health professional, or perform any clinical assessment). Examples include mobile apps that:
    • Provide a portal for health care professionals to distribute educational information (for example, interactive diagrams, useful links and resources) to their patients regarding their disease, condition, treatment or up-coming procedure;
    • Help guide patients to ask appropriate questions to their physician relevant to their particular disease, condition, or concern;
    • Provide information about gluten-free food products or restaurants;
    • Help match patients with potentially appropriate clinical trials and facilitate communication between the patient and clinical trial investigators;
    • Provide tutorials or training videos on how to administer first-aid or CPR;
    • Allow users to input pill shape, color or imprint and displays pictures and names of pills that match this description;
    • Find the closest medical facilities and doctors to the user’s location;
    • Provide lists of emergency hotlines and physician/nurse advice lines;
    • Provide and compare costs of drugs and medical products at pharmacies in the user’s location; and
    • Provide access to education materials using digital media to help patients cope with stress.
  4. Software functions that automate general office operations in a health care setting and are not intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease. Examples include mobile apps that:
    • Determine billing codes like ICD-9 (international statistical classification of diseases);
    • Enable insurance claims data collection and processing and other apps that are similarly administrative in nature;
    • Analyze insurance claims for fraud or abuse;
    • Perform medical business accounting functions or track and trend billable hours and procedures;
    • Generate reminders for scheduled medical appointments or blood donation appointments;
    • Help patients track, review and pay medical claims and bills online;
    • Manage shifts for doctors;
    • Manage or schedule hospital rooms or bed spaces;
    • Provide wait times and electronic check-in for hospital emergency rooms and urgent care facilities;
    • Allow health care professionals or staff in health care setting to process payments (for example a HIPAA compliant app); and
    • Track or perform patient satisfaction survey after an encounter or a clinical visit.
  5. Software functions that are generic aids or general-purpose products – These apps are not considered devices because they are not intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease. Examples include mobile apps that:
    • Use the mobile platform as a magnifying glass (but are not specifically intended for medical purposes 1 );
    • Use the mobile platform for recording audio, note-taking, replaying audio with amplification, or other similar functionalities;
    • Allow patients or health care professionals to interact through email, web-based platforms, video or other communication mechanisms (but are not specifically intended for medical purposes);
    • Provide maps and turn-by-turn directions to medical facilities; and
    • Allow health care professionals to communicate in a secure and protected method (for example HIPAA compliant app to send messages between health care professionals in a hospital).
  6. Software functions that are intended for individuals to log, record, track, evaluate, or make decisions or behavioral suggestions related to developing or maintaining general fitness, health or wellness, such as those that:
    • Provide tools to promote or encourage healthy eating, exercise, weight loss, or other activities generally related to a healthy lifestyle or wellness;
    • Provide dietary logs, calorie counters, or make dietary suggestions;
    • Provide meal planners and recipes;
    • Track general daily activities or make exercise or posture suggestions;
    • Track a normal baby’s sleeping and feeding habits;
    • Actively monitor and trend exercise activity;
    • Help healthy people track the quantity or quality of their normal sleep patterns;
    • Provide and track scores from mind-challenging games or generic “brain age” tests;
    • Provide daily motivational tips (for example, via text or other types of messaging) to reduce stress and promote a positive mental outlook;
    • Use social gaming to encourage healthy lifestyle habits; and
    • Calculate calories burned in a workout.
  7. Software functions that enable individuals to interact with electronic health record ( EHR) software certified under the ONC Health IT Certification Program – These are software functions that provide individuals with access to health record systems or enable them to gain electronic access to health information stored within an EHR system. Software functions that only allow individuals to view, transfer, or download EHR data are also included in this category. These software functions are generally meant to facilitate general patient health information management and health recordkeeping activities:
    • Software functions for health care professionals certified under the ONC Health IT Certification Program, such as those that help track or manage patient immunizations by documenting the need for immunization, consent form, and immunization lot number.
    • Software functions certified under the ONC Health IT Certification Program that prompt the health care professional to manually enter symptomatic, behavioral, or environmental information, the specifics of which are pre-defined by a health care professional, and store the information for later review.
  8. Software functions that enable patients or health care professionals to interact with (for example, transfer, store, convert formats, display data) EHR systems that are certified under the ONC Health IT Certification Program, or interact with a personal health record (PHR) systems.
  9. Software functions that allow a user to record (that is, collect and log) data, such as blood glucose, blood pressure, heart rate, weight, or other data from a device to eventually share with a heath care professional, or upload it to an EHR that is certified under the ONC Health IT Certification Program, or upload it to an online (cloud) database, or upload it to a PHR.
  10. Software functions that provides a list of appropriate cholesterol-lowering drugs to a health care professional to consider based on a patient’s cholesterol levels and demographics found in the EHR, and the basis for the recommendations is provided to the health care professional, so the health care professional does not rely primarily on the recommendations in making a clinical decision about a patient.2
  11. Software functions that provide health care professionals easy access to information related to patients’ health conditions or treatments (beyond providing an electronic “copy” of a medical reference), and enable the health care professional to independently review the basis of the information provided by the software function, such that the health care professional does not rely primarily on the information to make a clinical decision about an individual patient : 3
    • These software functions match patient-specific medical information (for example, diagnosis, treatments, allergies, signs or symptoms) to reference information routinely uses in clinical practice (for example, practice guidelines) to facilitate assessments of specific patients. The software function matches patient-specific medical information to peer-reviewed literature publications on related topics and enables the health care professional to independently review the basis for the information. For example, a software function that uses a patient’s diagnosis and other medical information to provide an HCP with current practice treatment guidelines for common illnesses or conditions such as influenza, hypertension, and hypercholesterolemia.4
    • Drug-drug interaction and drug-allergy contraindication notifications to avert adverse drug reactions. These software functions identify drug-drug interactions and drug-allergy contraindications, based on the current version of FDA-approved drug or device labeling or other up-to-date and peer-reviewed sources and patient-specific information, to attempt to prevent adverse drug reactions, and the software functions enable the health care professional to independently review the basis for the information. For example, a software function that identifies drug-disease interactions and contraindications, such as notifying an HCP that a patient with asthma should not be prescribed a non-selective beta-blocking drug.5
  12. Software functions that provide patients with simple tools to organize and record their health information – These are software functions that provide patients with tools to organize and record health information without providing recommendations to alter or change a previously prescribed treatment or therapy. Examples include:
    • Software functions that provide simple tools for patients with specific conditions or chronic disease (for example, obesity, anorexia, arthritis, diabetes, heart disease) to record their events or measurements (for example, blood pressure measurements, drug intake times, diet, daily routine, or emotional state) and share this information with their health care professional as part of a disease-management plan.
  13. Software functions that are specifically marketed to help patients document, show, or communicate to health care professionals regarding potential medical conditions – These products either pose little or no risk, or are the sole responsibility of the health care professionals who have used them in medical applications. Examples include:
    • Software that serves as a videoconferencing portal specifically intended for medical use and to enhance communications between patients, health care professionals, and caregivers.
  14. Software functions that help asthmatics record (that is, collect and log) inhaler usage, asthma episodes experienced, location of user at the time of an attack, or environmental triggers of asthma attacks.
  15. Software functions that record the clinical conversation a clinician has with a patient and sends it (or a link) to the patient to access after the visit.
  16. Software functions that meet the definition of Non-Device-MDDS 6 – These are software functions that are solely intended to transfer, store, convert formats, and display medical device data or results, without controlling or altering the functions or parameters of any connected medical devices. These do not include software functions intended to generate alarms or alerts or prioritize patient-related information on multi-patient displays, which are typically used for active patient monitoring to enable immediate awareness for potential clinical intervention, and are considered device software functions because these functions involve analysis or interpretation of laboratory test or other device data and results.
  17. Software functions that display patient-specific medical device data – These include software functions that display medical images directly from a Picture Archiving and Communication System (PACS) server;
  18. Software functions that are intended for transferring, storing, converting formats, or displaying clinical laboratory test or other device data and results, findings by a health care professional with respect to such data and results, general information about such findings, and general background information about such laboratory test or other device, unless such function is intended to interpret or analyze clinical laboratory test or other device data, results and findings. Examples include:
    • Software functions that transfer, store, convert formats, and display medical device data without modifying the data and do not control or alter the functions or parameters of any connected medical devices (that is, software functions that meet the definition of Non-Device-MDDS);
    • Software functions that meet the definition of Non-Device-MDDS and connect to a nursing central station and display (but do not analyze or interpret) medical device data to a physician’s mobile platform for review;
    • Software functions that are not intended for diagnostic image review such as image display for multidisciplinary patient management meetings (for example, rounds) or patient consultation (and include a persistent on-screen notice, such as “for informational purposes only and not intended for diagnostic use”).
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1 Medical purpose magnifiers are regulated either under 21 CFR 886.5840 – Magnifying spectacles (“devices that consist of spectacle frames with convex lenses intended to be worn by a patient who has impaired vision to enlarge images”), or under 21 CFR 886.5540 – Low-vision magnifiers (“a device that consists of a magnifying lens intended for use by a patient who has impaired vision.

What does mobile mean in nursing?

Mobile Nursing – Healthcare Solution | Cilico Background With the development of global information technology, Internet healthcare has gradually grown and expanded globally. Data display, More medical institutions will deploy mobile applications in the next few years.

Dedicated mobile computer as a timely and efficient data acquisition terminal, applying barcode recognition and RFID technology to patient wristbands, drug labels, specimen labels, etc. Scan tag information via computer, quickly and accurately complete the collection and upload of information in different situations such as hospital admission, clinical treatment, inspection, surgery, and emergency, realize closed-loop management of doctor’s order execution and improve nursing safety.

Solution CILICO is the initiator and pioneer of the concept of mobile computer for mobile nursing. It is also the first mobile computer manufacturer in the industry to integrate data acquisition functions such as barcode scanning, UHF RFID, and NFC, one device can realize multiple data collection, help hospitals achieve paperless and intelligent treatment and management, the industry problem of manually processing the last “50 meters” of information from the nurse’s standing position to the patient’s bed was solved.

  • Application Scenarios
  • Mobile Nursing | Intravenous Dispensing Center | Medical Waste Management
  • Personnel Management | Clothing Management
  • Mobile Nursing
  • Work scene

Mobile nursing means extending electronic medical records from desktop to mobile, from fixed nurse stations to mobile nurse stations. The main population is nurses, and the application scenarios are medical order execution (three checks and seven pairs) and vital signs collection.

  1. What Is Mobile Technology In Healthcare
  2. Product advantages
  3. CILICO mobile nursing mobile computer, integrated barcode scanning and electronic tag reading function, one device meets multiple data collection requirements; meanwhile, its open interface design supports all global mobile nursing software docking requirements, reducing hospital equipment testing costs.
  4. Intravenous Dispensing Center
  5. Work scene

PIVAS intravenous drug allocation center is a medical institution integrating clinical pharmacy and scientific research established according to international standards. It is a clinical drug configured by trained pharmaceutical technicians in strict compliance with the operating procedures under the operating environment that complies with GMP standards and is designed according to the characteristics of drugs treatment and rational medication services.

Use a mobile computer to collect the bar code of the doctor’s order and check the liquid configuration, outbound check. Use the crowd as a pharmacist. Product advantages In the static distribution center, the high-frequency barcode scanning requirements have extremely high requirements for mobile computer scanning and reading performance.

Fourier handheld terminals use high-performance scanning heads of international mainstream brands in combination with independent research and development of deeply optimized decoding algorithms to achieve scanning. Faster and more powerful. What Is Mobile Technology In Healthcare Medical Waste Management Work scene What Is Mobile Technology In Healthcare Utilize RFID radio frequency identification technology to collect information on all links of medical waste treatment. Through the construction of intelligent management system, the online system keeps an eye on the whole process of treatment, real-time supervision and positioning of medical waste, so as to achieve the whole process, traceability and closed loop Supervision. What Is Mobile Technology In Healthcare Personnel Management Baby anti-theft management The baby anti-theft system wears a RFID tag to the baby and the mother at the same time, and receives the baby’s RFID tag signal in real time through the dedicated IoT platform to obtain the baby status information. What Is Mobile Technology In Healthcare Check in check out When the baby needs to leave the ward due to factors such as bathing, emergency care, etc., it is necessary to perform a check-out operation through a hand-held terminal to authorize permission to leave, otherwise the alarm will be prompted and a check-in will be automatically given when returning to the ward.

Babysitter Record During the nursing process, the nursing staff can scan the mother and baby wristbands through the mobile nursing handheld terminal and perform nursing operations. The system will record all bedside nursing services, and it can also automatically record the nursing staff through the tags that identify the nursing staff.

Restricted Person Management Check in and check out When a person needs to leave the restricted area, he needs to perform a check out operation through a mobile computer, authorized to leave, otherwise the alarm prompts. What Is Mobile Technology In Healthcare Escort management Nursing recordThe nursing staff can scan the wristband through the mobile nursing mobile computer during the nursing process. When performing a nursing operation, the system will record all bedside nursing services. Do not tag the nursing staff, and automatically record the inspection records of the nursing staff. What Is Mobile Technology In Healthcare Clothing Management RFID hospital clothing management is to add RFID electronic tags to hospital doctors and nurses uniforms, patient uniforms, bedding, sheets, etc., and use RFID countertop, handheld, fixed readers to automatically identify clothing registration, clothing inventory, and clothing receipt The intelligent management mode of various management processes, such as service recovery, service status inquiry, service tracking, service automatic sorting, can better solve the worries of the hospital in service management.

  1. What Is Mobile Technology In Healthcare
  • Values
  • Effective control of nosocomial infections
  • Significantly reduce the loss rate
  • Save handover time, optimize send and receive processes, and reduce resource costs
  • Reduce the backlog of departments
  • Provide management basis for multi-dimensional data statistics reports

: Mobile Nursing – Healthcare Solution | Cilico

Is mobile good for health?

Cell Phones and Radio Frequency Energy – Cell phones emit low levels of non-ionizing radiation when in use. The type of radiation emitted by cell phones is also referred to as radio frequency (RF) energy. As stated by the National Cancer Institute, “there is currently no consistent evidence that non-ionizing radiation increases cancer risk in humans.

How do nurses use smartphone in patient care?

Information Seeking – Nurses used their smartphones to access information directed at patient care. The most common information sought was related to medications, including drug guides and drug references, in 14 of the 22 (64%) studies reviewed, Nurses reported efficiency of access to medication information; it was easier to search medications by either the generic name or brand name using their smartphones, despite having access to a drug reference book,

By using a mobile device, nurses were able to quickly look up new medications in drug guides, Out of 22 studies, 8 (36%) identified that nurses used apps downloaded to their devices to find information on medications; 4 (18%) did not report the name of the apps used, Whether nurses located medication information though a general search engine app (eg, Google) or by a specific app was not disclosed.

The other 4 (18%) studies identified the specific apps used by nurses as Epocrates, Micromedex, Drug Index and Dosage, and Vademecum International, Nurses also used their smartphones to access the internet for disease-related information, Smartphones were used to collect procedural information, including various surgical procedures and anesthetic procedures,

Other than Park and Lee, researchers did not specify if nurses located this information specifically through online search engines or by specific apps they downloaded to their smartphone devices. Nurses identified the need for information access regarding procedures and use of instruments within surgical settings,

The greatest barrier to information access included the inconvenience created by a lack of dedicated computers within surgical suites, thereby limiting nurses’ ability to access information, Surgical nurses used the app, BAND, on their personal devices in order to consult with each other and to share information, including pictures, videos of themselves describing instruments and procedures, YouTube videos, and other pertinent information,

  1. Using the app, information was easy to access and readily available and was positively reviewed by the operating room nurses,
  2. Nurses used their smartphones for information seeking for both patient education purposes and for their own educational needs.
  3. Out of 22 studies, 4 (18%) reported that nurses used their smartphones for patient education,

Flynn et al found that more than 75% of the nurses preferred the use of their smartphones to access information for patient education, and this was more commonly noted among nurses between the ages of 18 and 30 years compared to nurses older than 50 years of age.

  • Furthermore, Flynn et al discussed how nurses used their own smartphones to respond to patients’ and families’ requests for information on a variety of topics, such as medical procedures, medications, contact information for providers, and directions to local venues.
  • Personal smartphone use provided nurses with ease of access to information.
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For example, when asked by a patient about lab values, the nurse used their phone to search Google for the answer in the moment, McBride and Levasseur reported that nurses also used their personal smartphones to access patient handouts and teaching materials.

Nurses accessed continuing education and professional development opportunities through their smartphones, and Mobasheri et al reported that nurses used medical apps to enhance their clinical knowledge and skills. Other uses of smartphones by nurses included the use of online evidenced-based guidelines to support patient care, to access information related to patients’ prognoses, to support nurses’ understanding of disease pathophysiology and physiology, and to access clinical decision support tools,

Multiple smartphone apps that were reported being used by nurses for information seeking included WebMD, Medscape, Google, UpToDate, Infermera virtual, and 061 CatSalut Respon, Garner et al reported nurses’ use of PubMed, YouTube, Medical in Nursing and Oncology App, Google Scholar, Q Calc, Doc Plus, Praco, Radiopedia, and Wikipedia as apps and programs on their smartphones.

Is a device used in hospital?

10. Surgical Lights – Surgical lights are a mandatory part of any surgical setting to help surgeons work under adequate lighting conditions. Defibrillators, patient monitors, surgical tables, EKGs, anesthesia machines, sterilizers, lights, ultrasounds, and electrosurgical units, blanket/fluid warmers are all necessary pieces hospital equipment.

  • Eeping these on hand are critical to the operational success of a hospital and the health care provided within it.
  • Future Health Concepts (FHC) has been serving the medical community with new and refurbished medical equipment for 40 years.
  • Our primary refurbished products are sterilizers, washers/disinfectors, and operating room tables.

Other quality refurbished medical products are anesthesia machines, patient monitors, defibrillators, ESU, and rigid and flexible video systems along with many other products. Our clients’ satisfaction is of the utmost importance to us. We will work to try to exceed your expectations when it comes to equipment needs to develop a long-term relationship with your facility.

What are the advantages of mobile phones to your mental health?

Positive potential – However, focusing only on the negative experiences of some people ignores technology’s potential as both a tool for treating mental health issues and for improving the quality of people’s lives and promoting emotional well-being.

  1. For example, there are programmes for depression and phobias, designed to help lift people’s moods, get them active and help them to overcome their difficulties.
  2. The programmes use guided self help-based cognitive behavioural principles and have proven to be very effective.
  3. Computer games have been used to provide therapy for adolescents.

Because computer games are fun and can be used anonymously, they offer an alternative to traditional therapy. For example, a fantasy-themed role-playing game called SPARX has been found to be as effective as face-to-face therapy in clinical trials. Researcher David Haniff has created apps aimed at lifting the mood of people suffering from depression by showing them pleasing pictures, video and audio, for example of their families. What Is Mobile Technology In Healthcare Doctor on call. Shutterstock Technology can also provide greater access to mental health professionals through email, online chats or video calls. This enables individuals to work remotely and at their own pace, which can be particularly useful for those who are unable to regularly meet with a healthcare professional.

  1. Such an experience can be both empowering and enabling, encouraging the individual to take responsibility for their own mental well-being.
  2. This kind of “telemedicine” has already found a role in child and adolescent mental health services in the form of online chats in family therapy, that can help to ensure each person has a chance to have their turn in the session.

From our own practice experience, we have found young people who struggle to communicate during face-to-face sessions can be encouraged to text their therapist as an alternative way of expressing themselves, without the pressure of sitting opposite someone and making eye contact.

What are 5 examples of mobile device?

There are many types of mobile devices, including smartphones, smartwatches, tablets, laptop computers, handheld gaming consoles, and e-readers.

What are 3 examples of mobile operating systems?

2 Mobile Operating Systems – An OS is a software interface that is responsible for managing and operating hardware units and assisting the user to use those units. For mobile phones, OSs have been developed to enable users to use phones in much the same way as personal computers were used 1 or 2 decades ago.

How do we use mobile technology?

Mobile technology consists of any portable two-way computing device and the communication networks that connect them. Businesses often rely on mobile devices to share files and data, while individual consumers may use the technology to watch movies and scroll social media feeds.

What are the most commonly used mobile technologies?

Explain the most commonly used mobile technologies.

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Posted by Riyanshi Chaudhary 1 year, 9 months ago CBSE > Class 10 > Computer Applications (165)

1 answers

Sia ? 1 year, 9 months ago Many types of mobile operating systems (OS) are available for smartphones, including Android, BlackBerry OS, webOS, iOS, Symbian, Windows Mobile Professional (touch screen), Windows Mobile Standard (non-touch screen), and Bada. The most popular are the Apple iPhone, and the newest: Android.1 Thank You ANSWER

What is the impact of mobile technology?

4 Negative Effects Of Mobile Phones On Our Lives – Yes, we have to admit that life without a mobile phone is impossible. But no matter how useful they might be, we cannot ignore the underlying negative effects they carry with them. Some of them are as follows: 1:Addiction: Yes, mobile phone addiction is a thing.

Nomophobia is a proposed name for the phobia of being out of cell phone contact.50% of teens admit to being addicted to their phones. Studies show that people addicted to mobile phones often are linked to depression, anxiety, and other mental disorders.2: Waste of time : The average person checks his phone once every 12 minutes, leading to 80 times a day.

Most of the time people just check their phones for no good reason. Even when not using their phones, you might often see people fidgeting with their phones. According to Flurry, the average American adult spends over 5 hours a day on mobile phones, around 150 hours a month.3: Cause of Depression: As discussed before, mobile phones may lead to depression, especially among teens.

With the rage of social media, teenagers are becoming obsessed with “likes” on their personal posts and accounts. Moreover, reduced daily life interactions lead to loneliness and anxiety.4: Distraction: People cannot exclude the fact that mobile phones are a huge distraction. You often might make up your mind to just “check” up on updates and instead find yourself surfing the internet for hours on end without realizing it.

The reason is the distractions it holds. Students especially have to go through the ordeal of giving their phones to their parents just so they may focus on their studies. If you stop doing well in your studies and your grades are not as good as you would like, you can always use the help of professionals who will help you with improving your grades! you can leave a request ” ” and professional writers will help you and you will get the highest score.

  • So although mobile phones have made our lives easier they also have a negative effect on us.
  • The conclusion is that we may not be able to live without phones but we can take steps to reduce the negative effects.
  • For example, one might reduce the time he spends on his phone.
  • One should try to communicate face to face whenever possible instead of relying on his phone for every small task.

In this way, we can focus on the positive and reduce the negative. : The Impact of Mobile Devices on our Lives, Society and Environment

How many types of mobile are there?

Key Takeaways –

  • There are three categories of mobile phones: basic phones, feature phones, and smartphones.
  • Smartphones are equipped with a QWERTY keypad.
  • The mobile phone is primarily a communication device that uses voice, SMS, or MMS.

Is Android a mobile technology?

What is Android OS? – Android OS is a Linux-based mobile operating system that primarily runs on smartphones and tablets. The Android platform includes an operating system based upon the Linux kernel, a GUI, a web browser and end-user applications that can be downloaded.

Although the initial demonstrations of Android featured a generic QWERTY smartphone and large VGA screen, the operating system was written to run on relatively inexpensive handsets with conventional numeric keypads. Android was released under the Apache v2 open source license; this allows for many variations of the OS to be developed for other devices, such as gaming consoles and digital cameras.

Android is based on open source software, but most Android devices come preinstalled with a suite of proprietary software, such as Google Maps, YouTube, Google Chrome and Gmail.

What is meant by mobile first technology?

A ‘mobile-first’ approach involves designing a desktop site starting with the mobile version, which is then adapted to larger screens (contrary to the traditional approach of starting with a desktop site and then adapting it to smaller screens).

What are the characteristics of mobile technology?

Characteristics of Mobile Devices Operates without a physical connection to electricity ; uses a battery to store power. Able to send and receive information wirelessly, using cellular data, Bluetooth, or Wi-Fi. Features a user interface, such as a touchscreen or keyboard. Includes internal data storage.

What is mobile vs wireless technology?

The terms “mobile” and “wireless” are often used interchangeably but in reality, they are two very different concepts applied to modern computing and technology. Mobile is a word that is commonly used to describe portable devices. A mobile device is one that is made to be taken anywhere.

Therefore, it needs an internal battery for power, and must be connected to a modern mobile network that can help it to send and receive data without attaching to a hardware infrastructure. Wireless, on the other hand, does not mean mobile. Traditional computers or other non-mobile devices can access wireless networks,

One very common example is the use of a localized browser product in a local area network (LAN), where the router takes what used to be a cabled interaction and makes it wireless. Other kinds of wireless networks called wide area networks (WAN) can even use components of 3G or 4G wireless systems made specifically for mobile devices, but that doesn’t mean that the devices on these networks are mobile.

  1. They may still be plugged in or require proximity to a router or network node,
  2. Mobile and wireless systems really accomplish two very different things.
  3. While a wireless system provides a fixed or portable endpoint with access to a distributed network, a mobile system offers all of the resources of that distributed network to something that can go anywhere, barring any issues with local reception or technical area coverage.

For another example of the difference between mobile and wireless, think of businesses that offer Wi-Fi hotspots, A Wi-Fi hotspot is typically a resource for someone who has a relatively fixed device, such as a laptop computer that doesn’t have its own internal Internet access built in.

By contrast, mobile devices already have inherent access to the Internet or other wireless systems through those cell tower networks that ISPs and telecom companies built specifically for them. So mobile devices don’t need Wi-Fi – they already have their connections. To some who are used to using both wireless and mobile networks, this distinction may seem very simple.

However, the difference between providing mobile and wireless is likely to be something that gets explored more as new technologies continue to develop, and companies continue to offer more different kinds of interfaces to consumers.

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