Medical Transcriptions in the past would listen to dictations and type it themselves, but with voice recognition software this has become mostly unnecessary. Today the medical transcriptions usually just edit the output of the software which can range from a few corrections to major changes, because voice recognition software still has not been perfected.
The purpose of medical transcription and the medical transcriptions remains the same as it was in earlier times, to keep a record of a patient's medical status and treatment. Ancient medical transcription has been noted as writing on ancient cave walls and in documents of not until the late twentieth century was Medical Transcription recognized as a profession.
Medical Transcription were given menial labels such as typists, medical secretaries, dictating machine operator orssors.those who practice medical transcription, this was and is a highly unjustified job title since the profession requires a wide knowledge of highly technical medical terms.
Thus Medical Transcription was assigned its own job classification and those practicing it were officially called Medical Transcriptions. Health care staffs do not have the time to write every single bit of information they gather from patients.
The profession of Medical Transcription is very versatile as well. After a few years of education, Medical Transcriptions discussion of medical transcription equipment should begin with the most important but often overlooked asset the human brain. The machines used in medical transcription today are simple devices, and without human knowledge and intervention, machines are basically useless. The transcriptions are the brain of the machine.
Wednesday, December 24, 2008
Data Entry
Based in India offers a wide range of back office and Information Technology Enabled Services namely data entry, data processing and data conversion that are equivalent to global standards in terms of efficiency and accuracy. In the modern world data entry is the fundamental and most indispensable internal function of every business firms, organizations and service providers.
It is an exceptionally vital area of expertise that helps boost the performance standard and comp is a noted solution provider for exclusive and highly accurate data entry and processing services. The services offered by Data Entry India turns out to be advantageous in several ways as it increases the tempo of your business activities quickly, saves time, saves money and presents you with many other competitive advantages.
Outsourcing your complex and diverse database entry requirements to us can be a feasible option as far as cost effectiveness and quality Today, Data Entry Service furnish quality Data Processing Service, Data Conversion Service and Web Research Service for Projects within a reasonable period of time with Accuracy.
The experienced professionals at who possess various skill sets and well recognized Information technology skills have a reputation of successfully handling numerous projects from clients worldwide from data entry companies in India. Work with a diverse set of clients in a wide variety of industries including retail, finance, lodging, real estate and many others. Specialize in helping companies expand and increase profitability.
Outsource Data Entry Services utilizes advanced technologies to convert large quantities of paper and image-based forms to electronic data usable in database and document management systems. Paper is becoming obsolete and online is the in thing now. Data Entry Services India has an extremely efficient fast connection via the Internet for outsourcing requirements.
It is an exceptionally vital area of expertise that helps boost the performance standard and comp is a noted solution provider for exclusive and highly accurate data entry and processing services. The services offered by Data Entry India turns out to be advantageous in several ways as it increases the tempo of your business activities quickly, saves time, saves money and presents you with many other competitive advantages.
Outsourcing your complex and diverse database entry requirements to us can be a feasible option as far as cost effectiveness and quality Today, Data Entry Service furnish quality Data Processing Service, Data Conversion Service and Web Research Service for Projects within a reasonable period of time with Accuracy.
The experienced professionals at who possess various skill sets and well recognized Information technology skills have a reputation of successfully handling numerous projects from clients worldwide from data entry companies in India. Work with a diverse set of clients in a wide variety of industries including retail, finance, lodging, real estate and many others. Specialize in helping companies expand and increase profitability.
Outsource Data Entry Services utilizes advanced technologies to convert large quantities of paper and image-based forms to electronic data usable in database and document management systems. Paper is becoming obsolete and online is the in thing now. Data Entry Services India has an extremely efficient fast connection via the Internet for outsourcing requirements.
Horticultural Consultant
Horticultural consultants support a wide range of businesses and public sector organizations in the successful development of their products and resources. The role may involve business consultancy or technical consultancy (in areas such as crop management, or for public amenities).The consultant researches the issue in question in order to identify practical solutions and advise the client.
Clients may include: farmers; commercial growers specializing in protected and field crops or flowers; plant and tree nurseries; and leisure and conservation organizations or public bodies involved in the restoration, operation and maintenance of parks, botanical and public gardens, and other public spaces.
A horticultural consultant may be a business specialist, experienced in the business problems of the horticultural industry, or a technical specialist, focusing on commercial or amenity horticulture. There is an increasing emphasis on considering the environmental aspects of horticulture and technology transfer, such as sustainability, and on quality assurance in the growing of crops and plants.
Typical activities include: visiting horticultural clients on site, identifying their business or technical problems and investigating causes, analysing yields and the financial returns of existing commercial horticultural operations, preparing new or modified operational strategies and business plans, analysing horticultural and operational costs and the benefits resulting from existing or proposed public amenities and leisure locations.
Conducting environmental assessments, visiting historical sites, researching old plans and documents, and planning restoration programmes, designing layouts and planning planting programmers for ornamental gardens or tree planting programmes with local authority officers, designing produce supply chain systems and supporting the infrastructure for processing, storage and transport formulating solutions, and planning and organizing trials to assess their effectiveness.
Organizing presentations, technical visits and demonstrations, helping clients meet the requirements of legislation, including UK, EC and international regulations concerning quality, hygiene and employment, providing expert opinion for planning appeals and litigation, communicating, both orally and in writing, with clients, colleagues and professional groups, through briefings, technical and operational reports and presentations.
Writing advisory leaflets, specifications and technical manuals, marketing the consultancy and carrying out essential administration, including records, budgets and accounts, keeping up to date in specialist areas and with developments in land-based sectors.
Clients may include: farmers; commercial growers specializing in protected and field crops or flowers; plant and tree nurseries; and leisure and conservation organizations or public bodies involved in the restoration, operation and maintenance of parks, botanical and public gardens, and other public spaces.
A horticultural consultant may be a business specialist, experienced in the business problems of the horticultural industry, or a technical specialist, focusing on commercial or amenity horticulture. There is an increasing emphasis on considering the environmental aspects of horticulture and technology transfer, such as sustainability, and on quality assurance in the growing of crops and plants.
Typical activities include: visiting horticultural clients on site, identifying their business or technical problems and investigating causes, analysing yields and the financial returns of existing commercial horticultural operations, preparing new or modified operational strategies and business plans, analysing horticultural and operational costs and the benefits resulting from existing or proposed public amenities and leisure locations.
Conducting environmental assessments, visiting historical sites, researching old plans and documents, and planning restoration programmes, designing layouts and planning planting programmers for ornamental gardens or tree planting programmes with local authority officers, designing produce supply chain systems and supporting the infrastructure for processing, storage and transport formulating solutions, and planning and organizing trials to assess their effectiveness.
Organizing presentations, technical visits and demonstrations, helping clients meet the requirements of legislation, including UK, EC and international regulations concerning quality, hygiene and employment, providing expert opinion for planning appeals and litigation, communicating, both orally and in writing, with clients, colleagues and professional groups, through briefings, technical and operational reports and presentations.
Writing advisory leaflets, specifications and technical manuals, marketing the consultancy and carrying out essential administration, including records, budgets and accounts, keeping up to date in specialist areas and with developments in land-based sectors.
Statistician
Statisticians are concerned with the collection, analysis, interpretation and presentation of quantitative information. They work in a range of sectors including health, education, government, finance, the environment, transportation, market research as well as throughout industry, business and commerce.
Statisticians design and manage experiments and surveys. They deal with the initial collection of data. They process and analyze the data in context, looking for patterns to help make decisions. They advise on findings and recommend strategy.
Statisticians often work in teams, usually including professionals from other disciplines. Strong analytical and IT skills are essential, as are interpersonal and communication skills in order to share findings with colleagues and clients. Below is a list of typical work activities undertaken by statisticians as well as specific examples of tasks from different job sectors. Statisticians carry out some or all of the following activities.
Statisticians agree with clients about what data to collect and how it should be gathered - taking into account any ethical and legislative considerations. Examples might include: designing experiments to improve the quality of new products, designing surveys and conducting focus groups to gather consumer feedback, designing experiments to assess the effects of drugs and associated side effects.
Statisticians collect data personally or explain to others how to do it. Examples might include: monitoring levels of air pollution, measuring the toxicity of food additives, checking quality control standards in industry.
Statisticians analyze data, interpret results and indicate the reliability of findings with the aid of mathematical techniques and software. Examples might include: forecasting trends for pension providers, monitoring, reporting and modeling disease outbreaks, evaluating the impact of government policy and reporting to the wider community, predicting demand for products and services.
Statisticians interpret and communicate results to clients ensuring that complex statistical concepts are explained in a way they can understand and advice on strategy. Examples might include: providing projections of future student numbers allowing for changes in the birth rate and assessing the number of teachers that will be needed in the sector, recommending whether folic acid should be included in bread production.
Statisticians design and manage experiments and surveys. They deal with the initial collection of data. They process and analyze the data in context, looking for patterns to help make decisions. They advise on findings and recommend strategy.
Statisticians often work in teams, usually including professionals from other disciplines. Strong analytical and IT skills are essential, as are interpersonal and communication skills in order to share findings with colleagues and clients. Below is a list of typical work activities undertaken by statisticians as well as specific examples of tasks from different job sectors. Statisticians carry out some or all of the following activities.
Statisticians agree with clients about what data to collect and how it should be gathered - taking into account any ethical and legislative considerations. Examples might include: designing experiments to improve the quality of new products, designing surveys and conducting focus groups to gather consumer feedback, designing experiments to assess the effects of drugs and associated side effects.
Statisticians collect data personally or explain to others how to do it. Examples might include: monitoring levels of air pollution, measuring the toxicity of food additives, checking quality control standards in industry.
Statisticians analyze data, interpret results and indicate the reliability of findings with the aid of mathematical techniques and software. Examples might include: forecasting trends for pension providers, monitoring, reporting and modeling disease outbreaks, evaluating the impact of government policy and reporting to the wider community, predicting demand for products and services.
Statisticians interpret and communicate results to clients ensuring that complex statistical concepts are explained in a way they can understand and advice on strategy. Examples might include: providing projections of future student numbers allowing for changes in the birth rate and assessing the number of teachers that will be needed in the sector, recommending whether folic acid should be included in bread production.
Clothing Technologist
A clothing/textile technologist carries out a range of technical, investigative and quality control work on clothing and textiles, ensuring that products perform to specifications. Technologists work on the development of products, improve production efficiency and quality, and liaise with those involved in the production process.
The textile and clothing industries are inextricably linked, starting with the production of fibers, yarns and fabrics, and ending with the sale of finished products, which are mainly clothing but also include household and industrial textiles. The UK has a reputation for high value and innovation in fashion, design and the application of information technology.
Technologists in smaller organizations are usually responsible for both clothing or garments and textiles, but in some large companies, these functions are split. Clothing/garment technologists are involved in all aspects of garment construction and are expected to keep up to date with technical innovations.
They work with a wide range of materials, including natural and synthetic textiles, leather, fur, metals and plastics. Their main responsibilities are to minimize risk, assure quality, support product development and develop supplier relationships. Tasks typically include: liaising with designers, and adapting designs to suit production methods.
Textile technologists are responsible for: developing man-made fibers and the quality assessment of natural fibres,spinning fibers into yarn, and knitting or weaving yarn into fabrics, producing non-woven materials, identifying the latest fabric trends, developments and innovations, overseeing the dyeing, printing and finishing processes.
Ensuring quality in areas such as strength, durability, colorfastness, and water and chemical resistance, advising commercial colleagues on technical aspects of the business, working closely with suppliers and customers.
Some technologists specialize in research and product development, and may: undertake research to find new ways of using yarns, develop chemicals that may be added to fabrics to make them more waterproof, flame-resistant or shrink-resistant, experiment with textiles to improve their look, feel, texture and durability.
The textile and clothing industries are inextricably linked, starting with the production of fibers, yarns and fabrics, and ending with the sale of finished products, which are mainly clothing but also include household and industrial textiles. The UK has a reputation for high value and innovation in fashion, design and the application of information technology.
Technologists in smaller organizations are usually responsible for both clothing or garments and textiles, but in some large companies, these functions are split. Clothing/garment technologists are involved in all aspects of garment construction and are expected to keep up to date with technical innovations.
They work with a wide range of materials, including natural and synthetic textiles, leather, fur, metals and plastics. Their main responsibilities are to minimize risk, assure quality, support product development and develop supplier relationships. Tasks typically include: liaising with designers, and adapting designs to suit production methods.
Textile technologists are responsible for: developing man-made fibers and the quality assessment of natural fibres,spinning fibers into yarn, and knitting or weaving yarn into fabrics, producing non-woven materials, identifying the latest fabric trends, developments and innovations, overseeing the dyeing, printing and finishing processes.
Ensuring quality in areas such as strength, durability, colorfastness, and water and chemical resistance, advising commercial colleagues on technical aspects of the business, working closely with suppliers and customers.
Some technologists specialize in research and product development, and may: undertake research to find new ways of using yarns, develop chemicals that may be added to fabrics to make them more waterproof, flame-resistant or shrink-resistant, experiment with textiles to improve their look, feel, texture and durability.
Production Manager
A production manager is involved with the planning, coordination and control of industrial processes.
A production manager ensures that goods and services are produced efficiently; that they are of the right quality, quantity, and cost; and that they are produced on time, to the satisfaction of the customer, at the right price. The scope of the job depends on the nature of the production system: jobbing production, mass production, process production, or batch production.
Many companies are involved in several types of production, adding to the complexity of the job. Most production managers are responsible for both human and material resources.
The exact nature of the work will depend on the size of the employing organization. However, tasks typically involve: overseeing the production process, drawing up a production schedule, ensuring that the production is cost effective;, making sure that products are produced on time and are of good quality, working out the human and material resources needed, drafting a timescale for the job.
Monitoring the production processes and adjusting schedules as needed, being responsible for the selection and maintenance of equipment, monitoring product standards and implementing quality-control programmes, liaising among different departments, e.g. suppliers, managers, supervising and motivating a team of workers, reviewing the performance of subordinates, identifying training needs.
A production manager is involved in both the pre-production (planning) stage as well as the production (control and supervision) stage. A large part of production management involves dealing with people, particularly those who work in your team.
Production managers are also involved with product design and purchasing. In a small firm you may have to make many of the decisions yourself, but in larger organization planners, controllers, production engineers and production supervisors will assist you.
In progressive firms, the production manager's role tends to be more closely integrated with other functions, such as marketing, sales and finance.
A production manager ensures that goods and services are produced efficiently; that they are of the right quality, quantity, and cost; and that they are produced on time, to the satisfaction of the customer, at the right price. The scope of the job depends on the nature of the production system: jobbing production, mass production, process production, or batch production.
Many companies are involved in several types of production, adding to the complexity of the job. Most production managers are responsible for both human and material resources.
The exact nature of the work will depend on the size of the employing organization. However, tasks typically involve: overseeing the production process, drawing up a production schedule, ensuring that the production is cost effective;, making sure that products are produced on time and are of good quality, working out the human and material resources needed, drafting a timescale for the job.
Monitoring the production processes and adjusting schedules as needed, being responsible for the selection and maintenance of equipment, monitoring product standards and implementing quality-control programmes, liaising among different departments, e.g. suppliers, managers, supervising and motivating a team of workers, reviewing the performance of subordinates, identifying training needs.
A production manager is involved in both the pre-production (planning) stage as well as the production (control and supervision) stage. A large part of production management involves dealing with people, particularly those who work in your team.
Production managers are also involved with product design and purchasing. In a small firm you may have to make many of the decisions yourself, but in larger organization planners, controllers, production engineers and production supervisors will assist you.
In progressive firms, the production manager's role tends to be more closely integrated with other functions, such as marketing, sales and finance.
Research Scientist (physical sciences)
Physical scientists (from backgrounds including chemistry, physics, mathematics, materials science and the geosciences) develop an understanding of materials and processes by gathering information and generating knowledge through both theoretical and experimental research.
The work is often divided: pure research, conducted for interest or to improve understanding without an additional purpose; and applied research, which contributes to the development of a commercially exploitable product.
Academic research is increasingly collaborative across all scientific fields and the interdisciplinary nature of scientific research means that much of the work involves spending a significant amount of time working on joint projects.
The exact nature of the work depends on whether you work in industry or in an academic research setting, but in either case the work is usually laboratory-based and typical tasks include: planning and conducting experiments to investigate and analyze scientific phenomena, extrapolating data to develop theories to explain those phenomena.
Simulating problems in laboratories and finding solutions by applying new scientific methods (the design and execution of experiments that provide meaningful data are common challenges),arranging the testing of products or materials to ensure that they meet quality standards, writing up results in reports and/or scientific papers, in industry, ensuring that the large-scale manufacture of new products and materials can be carried out without problems.
All physical scientists must be aware of relevant developments made by other researchers. This may involve keeping up to date through web-based research, reading specialist literature and attending scientific presentations and discussions. You will also need to disseminate any new findings at departmental meetings and national and international conferences, and by writing papers for peer-reviewed scientific journals.
If you work in industrial research and development, you will probably be allocated specific projects. In smaller organizations, you may be involved in all stages of production, from concept to delivery to the customer.
The work is often divided: pure research, conducted for interest or to improve understanding without an additional purpose; and applied research, which contributes to the development of a commercially exploitable product.
Academic research is increasingly collaborative across all scientific fields and the interdisciplinary nature of scientific research means that much of the work involves spending a significant amount of time working on joint projects.
The exact nature of the work depends on whether you work in industry or in an academic research setting, but in either case the work is usually laboratory-based and typical tasks include: planning and conducting experiments to investigate and analyze scientific phenomena, extrapolating data to develop theories to explain those phenomena.
Simulating problems in laboratories and finding solutions by applying new scientific methods (the design and execution of experiments that provide meaningful data are common challenges),arranging the testing of products or materials to ensure that they meet quality standards, writing up results in reports and/or scientific papers, in industry, ensuring that the large-scale manufacture of new products and materials can be carried out without problems.
All physical scientists must be aware of relevant developments made by other researchers. This may involve keeping up to date through web-based research, reading specialist literature and attending scientific presentations and discussions. You will also need to disseminate any new findings at departmental meetings and national and international conferences, and by writing papers for peer-reviewed scientific journals.
If you work in industrial research and development, you will probably be allocated specific projects. In smaller organizations, you may be involved in all stages of production, from concept to delivery to the customer.
Subscribe to:
Posts (Atom)