Multimedia information administration and storage mainly focuses on empowering database frameworks to manage interactive media content at a very high level of abstraction. In this paper we mainly discuss, what is the database system’s role in managing, controlling and taking the multimedia data to the next level of interaction. Then we discuss, how the part of the database framework converges with the part of media servers that is an extension of traditional file servers with isochronous multimedia information delivery abilities. Media information incorporates an extensive variety of data sorts, similar to feature, sound, still pictures, and music. Our challenge is to provide devices that productively manage multimedia information. …show more content…
One of the primary segments of the multimedia communications framework is the sight and sound database server intended for the treatment of patient data along with the analytic reports, pictures, and voice annotations. The database server may be accessed from the radiologist 's and physicians workstations through an Ethernet LAN utilizing TCP/IP and appropriate application protocols.
This paper discusses principles of storage and retrieval of delay sensitive multimedia data. The retrieval requirements can be discussed in terms of digital audio playback. For this, a theoretical framework can be developed for discussing real time requirements of retrieval and storage placements strategies. Data independence permits the representation of information to be changed without creating the need to change application projects utilizing the information. Physical data independence in hyper media databases hides the storage details of media artifacts, for example: resolution, segmentation, formatting, redundancy in storage etc from the data used by the applications. This helps in achieving the following goals:
Distinctive applications utilize the same multimedia object, however every application requires a marginally diverse variety of the article. Varieties required include, example: diverse
The advancement in technology has rapidly transformed the world today, and the increase in the number of web-enabled devices has completely changed peoples ' lives especially the way they communicate. Electronic Health Record system, which is a digital copy of a patient’s medical history is one of the revolutionary ideas that have come with this advancement. Electronic Health Records (EHRs) are instantaneously updating records that are patient-centered designed with the aim of providing real-time information to the authorized users (Cohen, 2010). It contains all the patient’s information that is in the hand of the medical providers including their medical history, treatment dates and types, immunizations conducted to the patient and their dates, radiology images and all the laboratory results from the tests conducted in the past. All this information is held in a digital format and can only be updated by authorized users who are stationed in the medical facilities. Electronic records are designed to make it easy for different health providers and organizations to share patients’ information which streamlines their operations since all the necessary information and history can be accessed from any location at any time.
v) Video/audio stream: Servers can store whole videos on disk and convey them at playback
The use of data in today’s commercials is a vital role that cannot be overlooked. That is there is a need to backup data on physical mediums. The main mediums are hard-drive, flash drive, optical disc, and tape drive. There is multiply different version of each main type of medium. These different physical mediums store data in different ways. Fragmentation can also be an issue for some of these physical mediums. I will cover each medium in a little depth because of the different types available in today’s market.
The system in place in the office setting is relatively new. However, they have been able to accomplish many beneficial features to optimize patient care. The system is connected to a larger network of providers and hospitals. This integration allowed for steam lined communication
The second system within PFCH is the OsiriX (OsiriX, 2010) imaging software. OsiriX is the primary application employed for the Modality Viewing Stations in the Radiology department for PFCH. OsiriX is application, which processes the imagery and is ultimately designed to capture, manage, maintain, view and print the imagery. OsiriX as well transmits Digital Imaging and Communications in Medicine or DICOM images produced by various other medical imagery equipment. This equipment includes Magnetic Resonance Imaging, Computed Tomography, Positron Emission Tomography, and the other various medical imagery technologies. Ultimately DICOM has a unique file format definition and leverages a network communications protocol that uses TCP/IP
Chapter 7 discusses compression algorithms. Compressions are used often and sometimes we may not even be aware of it. The items we download or upload may be compressed in order to save bandwidth. Chapter 8 discusses the fundamental algorithms underlying databases (MacCormick, 7). This chapter emphasizes the techniques used to achieve consistency and to ensure that databases never contradict each other. Chapter 9 discusses the ability to ‘sign’ an electronic document digitally (MacCormick, 7). Chapter 10 discusses algorithms that would be considered great if it existed.
Blazona, B., & Koncar, M. (2007). HL7 and DICOM based integration of radiology departments with healthcare enterprise information systems. International Journal Of Medical Informatics, 76(Supplement 3), S425-S432. doi:10.1016/j.i
“The Medical KM is used by doctors and nurses to access online medical databases to assist in patient diagnosis and drug administration.” (Apollo Group Inc., 2013) As stated this information system is web deployed and links not only to internal databases for patient medical records, charts, etc., but connects to external databases that contain the same types of information.
a. The combination of computers, videoconferencing, and digitized medical records that can be transported via satellite or high-speed telephone lines
The rapid growth of the Internet (World Wide Web) has been a major force facilitating and allowing hospitals in the U.S. to send images (i.e., X-rays, Ct scans, MRI scans, and ultrasound) over the internet to doctors/skilled workers overseas who specialize in reading/interpreting diagnostic medical images. This reduces the workload on medical specialists in the U.S., cuts costs, and is effectively faster. Some of these countries are on the opposite side of the globe, thus the images could be interpreted while it is nighttime in the U.S. and be ready for the attending physician when he/she arrives for work the following day. In addition to developments in communication technology, a major innovation in transportation
In order to meet the requirements set forth by the Federal Government many health care institutions began the painstaking process of seeking out an electronic program. These institutions sought to purchase a system that would have the capacity to interact with other programs, and the flexibility to allow all clinical personnel easy access to pertinent medical information such as labs, diagnostic test results and past medical history.
How Information System’s Assist: The facility states that it offers their physicians and patients access to the “latest high-tech imaging services, digital medical technology and specialized equipment.” This equipment includes the use of digital radiology imaging, digital echocardiograms and digital cardiac catheterization. The facility also uses an Electronic Medical Record system, which they claim enhances patient safety and maximizes physician connectivity. Having this equipment helps the facility differentiate itself from its
Every single Medical Image is saved in DICOM file format. Therapeutic Imaging Equipment creates DICOM documents. Specialists use DICOM Viewers, Computer Software applications that can show DICOM pictures, to analyze the discoveries in the pictures. DICOM documents contain more than just pictures. Each DICOM record holds Patients data (name, ID, sex and DOB, etc.), essential procurement information (e.g. Modality, Body region, etc.), and connection of the imaging study that is utilized to interface the picture to the medicinal treatment it was a part of.
On the other hand, technology also presents the business with some cost effective solutions. R4 our clinical system is linked to each Practice and Head office, ensuring that information is easily accessible and transferrable between. As our acquisitions focuses more towards the north and southwest areas of the country, we have started to trial video conferencing for all field area business
Information collected digitally from computers or media storage applications has protocols that need be followed during the process. The order of collecting digital information mostly determines the life expectancy of information collected (Eoghan, 2004, p. 74). There is a need to change information