Advisor Job Description Sample

Advisor Job Description SampleAutomotive tafelgeschirr Writer / Advisor Job Description SampleAutomotive Service Writer / Advisor Job Description SampleThis automotive service writer / advisor sample job description can assist in your creating a job application that will attract job candidates who are qualified for the job. Feel free to revise this job description to meet your specific job duties and job requirements.Automotive Service Writer Advisor Job ResponsibilitiesInitiates automotive services and repairs by ascertaining performance problems and services requested verifying warranty and service contract coverage developing estimates writing repair orders maintaining customer rapport and records.Automotive Service Writer Advisor Job DutiesAscertains automotive problems and services by listening to customers description of symptoms clarifying description of problems conducting inspections taking test drives checking vehicle maintenance records examining service schedules.Verifies warranty and service contract coverage by examining records and papers explaining provisions and exclusions.Develops estimates by costing materials, supplies, and labor calculating customers payment, including deductibles.Prepares repair orders (RO) by describing symptoms, problems, and causes discovered, as well as repairs and services required obtaining approval signatures entering RO into service database system.Maintains customer rapport by explaining estimates and expected return of vehicle obtaining customers approval of estimates obtaining and providing contact telephone numbers answering questions and concerns arranging towing and temporary transportation.Maintains automotive records by recording problems and corrective actions planned.Updates job knowledge by participating in educational opportunities reading manufacturers publications.Enhances organization reputation by accepting ownership for accomplishing new and different requests exploring opportunities to add value t o job accomplishments.Automotive Service Writer Advisor Skills and QualificationsEquipment Maintenance, Lifting, Problem Solving, Reporting Research Results, Quality Focus, Productivity, Estimating, Product Knowledge, Customer Service, Problem Solving, Safety ManagementEmployers Post a job in minutes to reach candidates everywhere. Job Seekers Search Automotive Service Writer Advisor Jobs and apply on now. Learn mora about the hiring processImprove your Interviews with a Post-Game ReviewWhy Hire Veterans? Answer For the Job SkillsRed Flags and Warnings in the Interview Process

Improving Medical Devices Using Computational Modeling

Improving Medical Devices Using Computational Modeling Improving Medical Devices Using Computational Modeling Improving Medical Devices Using Computational ModelingTo improve the design and testing of medical devices such as cardiovascular stents that are implanted in the menschlich body, mathematical modeling techniques like computational fluid dynamics and finite element analysis (FEA) are being increasingly used these days in plus-rechnen to traditional in-vitro techniques.The Center for Devices and Radiological Health (CDRH) is a branch of the FDA responsible for the pre-market approval (PMA) of all medical devices, as well as overseeing their manufacturing, performance, and safety. The CDRH splits these devices into three main categories.Class 1 devices include everyday items such as battery-powered toothbrushes which are unlikely to cause serious consequences if they fail.Class 2 devices require an approval that is referred to as a 510(K) after the relevant section of the Food, Drug and Cosmetic Act. The intent of this class is for companies who manufacture devices that already existed when the rules were first established.Class 3 devices require a full PMA. This class typically includes implantable medical devices that would cause serious risk of injury or even death if they did not function properly.CDRH requires pre-market bench testing for most implanted materials and components to determine their potential for causing blood and tissue damage. Additionally, in-vitro testing is also important in determining the source of blood damage during adverse patient investigations that might occur post-market. However, uncertainty in the performance and use of the data can occur since standardized testing and reporting procedures for quantifying blood damage have not been established for evaluating many of these devices. The main reason is, due to the complexity of current blood trauma testing techniques, it has not been shown that preclinical evaluations of new devices using in-vitro laboratory testing have typically been good predictors of how they will perform in patient clinical trials, according to research conducted by the FDA.Computer Modeling TechniquesFor that reason, the FDA is actively involved in evaluating the differences between testing these devices and components with animal/human blood, and by exploring how flow-visualization and computational flow dynamic simulations can be used to validate and predict blood damage. One of the most widely used computer modeling techniques to simulate the flow of fluids and the physical forces acting on the fluid is known as computational fluid dynamics (CFD), a branch of fluid mechanics that uses numerical methods and algorithms to solve and analyze problems that involve fluid flows. It is already being used to develop tests for blood-flow medical devices, such as ventricular assisted devices (VADs).Computational modeling being used to test a cardiovascular stent. Image Ozen EngineeringAn other subset of computer modeling being used to support CFD studies is FEA. This model consists of knowing the detailed geometry of the device and the mechanical properties of the materials used to predict stresses and strains in solid structures and materials from the applied external forces and deformations. As with CFD, the method reduces costs by allowing virtual design and prototyping rather than actually building and testing each iteration of the device. FEA also can predict failures due to unknown stresses by showing problem areas and allowing designers to see more of the stresses calculated within the device.However, even though these computational models are proving very useful to demonstrate product reliability in FDA pre-market device applications, there have been limited studies carried out to adequately and systematically validate these techniques within a standardized procedure. This is particularly true in the final stage of predicting biological responses, such as co mparing blood damage, or thrombus formation, to the purely physical results of the simulations, such as blood pressure, velocity, and shear stresses. Even the physical results generated by CFD are subject to considerable error as compared to experiment, as welches recently demonstrated in a computational inter-laboratory study. In this study, computations of a relative hemolysis index (excessive blood cell destruction) of patients from the CFD simulations showed a great deal of scatter, which couldnt be fully explained.ASME InterestASME has taken an interest in the standardization of these computation modeling techniques. The seed for a committee was nurtured during a 2008 FDA Workshop on Computer Methods for Cardiovascular Devices. As a result of feedback received from the workshop, it was determined to proceed with forming a new verification and validation (VV) subcommittee that was application-specific to the medical device industry. The charter of this new committee, known as VV 40, was to provide procedures to standardize the verification and validation for the computational modeling of medical devices.After two years of engaging the medical device industry through various forums, a panel of experts was assembled. Its main task initially involved putting together a comprehensive list of what the medical device industry needs, and in particular, how computer modeling can be used to support the design process. The first official meeting was held in April 2011 in conjunction with the Design of Medical Devices Conference at the University of Minnesota to review the in-depth analysis of the various VV documents within the community.The committee currently has a strong representation from experts on cardiovascular devices, but the group is looking to become better versed with expertise from other areas. It also is not clear where the boundaries of this committee lie. For example, it hasnt been decided on what specific medical devices the group should focus on a nd how to differentiate the work for a wide variety of devices, i.e., implantable versus non-implantable devices. However, the goals of the committee are clear, and are summed up by Ryan Crane, the committee secretary There is no question that through standardized computational modeling techniques, the design, testing, and regulatory review of medical devices or components will lead to improvements in efficacy and cost throughout the pre-market and post-market stages of the products life cycle.Robert Thomas is an independent writer. As with CFD, the FEA method reduces costs by allowing virtual design and prototyping rather than actually building and testing each iteration of the device.

Combat Medics in Different Military Branches

Combat Medics in Different Military BranchesCombat Medics in Different Military BranchesIn the U.S. military, there are many types of medical personnel, known as medics. Across each branch, there are training programs that prepare these troops tosave lives in clinic and combat situations. The terms medic, corpsman, doc, or combat medic are used interchangeablydepending on the service. But the roles of medical professionals in the military vary. A medic can train to be side by side in firefights with infantry units or special ops teams, or they can become skilled as surgery technicians or physical therapists depending on what career path they choose. However, the combat medics in all the branches of service are warrior-medical-technicians and perform life-saving skills on the battlefield. Army Special Forces Medic Medics in the Special Forces Operational Detachment are first and foremost, special forces qualified. The 18D (18 Delta) medics in the Army special forces are highly tra ined Special Operations Combat Medics who attend training for more than a year, learning a variety of skills. These include dive medicine, altitude physiology, large animal veterinary care, dental extraction, orthopedics, and advanced trauma life support. They also receive training in local and cultural medical norms, for when they are deployed to areas with different views or traditions surrounding medical procedures. Difference Between MOS 18D andSOCM Course The first half of the 18D course trains in trauma medicine critical for combat medic operations. This is the Special Operations Combat Medic (SOCM) course and lasts about 6 months. Special Forces medics will attend for aleidher 5 months and receive training in medical problems and diagnosing illness. Many of the highly capable SEAL, USMC RECON (Navy Corpsmen) will attend the 2nd half of the 18D course later in their careers. The Whiskey One (W1) course is a 22-week advanced medic course that prepares the 68W medic for duty in Ranger, SOAR units in the Army. An Army combat medic can also go for Special Forces Assessment and Selection (SFAS for short) and go for the entire 18-D course to become a special forces medical non-commissioned officer. Navy Hospital Corpsman (HM) Navy medics can specialize in a variety of medical skills from diving, aviation and clinical toSpecial Operations. Navy Corpsmen can serve aboard ships, clinics, and also go into the Marine Corps and be their Spec Ops unitmedics. The Special Amphibious RECON Corpsman (SARC) attend the Special Operations Combat Medic (SARC) course which is the short course of the 18D training - 22 weeks. Later in their careers, many SARC and SEAL and SWCC medics will attend the second half of the 18D training. Just as a SEAL would be sniper trained or communications trained, SEALs will also get extra training to become a medic. However, when a unit does not have a combat medic, an 18D from Army Special Forces or Air Force PJs will be added to the group and perform mission essential tasks as the units medic when needed. Air Force PJ Combat Rescue Medic The Air Force Combat Medic (Pararescue - PJ) attend their own Special Operations Combat Medic Course for 22 weeks, then they must attend Pararescue Recovery Specialist Course for 20 weeks which teaches the variety of methods of rescuing injured personnel in every environment and situation.The PJsare qualified to be medics with special operations-trained paramedic certifications. They are fighters too and may be participating in combat when theyll have to rescue others behind enemy lines or in enemy territory. They are often augmented into SEAL platoons when SEALs do not have a medic. so they are fighter rescue specialists capable of flexibility in other Special Operations units. Army Combat Medic The regular medic in the Army is military occupational specialty (MOS)68W, whoworks with infantry and other fighting units. The primary job of the 68W is medic duties, but t hese soldiers will carry weapons, body armor, ammo, and of course the trauma medical gear for typical injuries seen in combat situations. 68W Medic school is roughly four months long and is broken down into two phases. The first phase is training in CPR certification and emergency medical technician (EMT) certification. leiter two is commonly called the Whiskey side. Students will learn about advanced combat trauma medicine, which includes hooking IVs, advanced airway management, trauma management, and limited primary care. As a 68W combat medic, you will either deploy as a line medic, which means youll be attached to a platoon of soldiers and youre responsible for their medical care when they go into combat situations, you go with them. The Line medic is in the firefight, treating at the point of injury, and carries medical gear, weapons, ammunition, and body armor. The other duty you may rotate into is the Aid Station which is equivalent to working in a medical clinic. The Aid Sta tion is the hub of all trauma treatment. You can receive multiple casualties and work way beyond your scope of practice.If youre assigned to a Brigade Combat Team, you may get a few months of each. 68W Army Combat Medics can also go into other Special Operations units within SOCOM, the Ranger Regiment, SOAR, butare required to go through the W1 Special Operations Combat Medic course first. There are no shortages of jobs for the military medic. Depending on how you want to serve, youll have plenty of opportunities.