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Apprenticeship training course

Forensic collision investigator (integrated degree) (level 6)

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Information about Forensic collision investigator (integrated degree) (level 6)

Investigate and reconstruct road traffic and other vehicle-related incidents using scientific and engineering principles to determine how an incident occurred.

Knowledge, skills and behaviours
View knowledge, skills and behaviours

Knowledge

  • What hazards are likely to be found at the scene of an incident and how to mitigate them to establish a safe working environment.
  • How to preserve, record and analyse the scene of an incident. This may include examining, measuring, photographing, videoing and mapping the locus of the incident, the vehicles and other physical material present.
  • How to accurately obtain the deceleration and acceleration rates of a vehicle using an accelerometer. How to establish deceleration and acceleration rates of vehicles and other objects by drag testing, from manufacturers’ data or other documents.
  • How to recover, critically appraise and interpret data from various data recorders such as digital tachographs, electronic control units, insurance data boxes.
  • How to measure crush damage to a motor vehicle following a collision. Understand how crush damage, equivalent energy speed (EES) and equivalent barrier speed (EBS) can be used to calculate velocity change and the actual speed of vehicles.
  • How to use Newtonian mechanics in collision investigation.
  • Know how to use and obtain results from spreadsheets and other math calculation software.
  • Be conversant with published literature around human factors for use in investigations. Know how environmental factors may affect persons and vehicles involved in the collision.
  • What constitutes a critical speed state and understand what criteria to apply to a vehicle in critical speed
  • The kinematics involved when a pedestrian is struck by a vehicle. Know which throw model to apply in the particular circumstances to find speed.
  • The handling characteristics of a two wheeled motorcycle and the various ways in which control can be lost. Know how to calculate speed from wheelbase shortening.
  • Know how to evaluate video footage to calculate the speed of relevant objects.
  • Following a collision, how to design and run experiments to obtain additional information to aid in a reconstruction ensuring that the results are valid, unambiguous and statistically sound.
  • How to perform statistical calculations to find the uncertainty in calculations.
  • How use software to produce plans, simulations and 3D models to assist in the reconstruction of an incident.
  • How to design and execute a research project to reach balanced and valid conclusions.
  • Following a collision, how to undertake a vehicle examination. Identify the mechanical component of the vehicle including tyres, brakes, suspension and steering. Identify both active and passive safety systems fitted to the vehicle. Identify the components of a vehicles electrical system. Know how to investigate/interrogate those components to detect defects and faults that may affect the handling of the vehicle (vehicles up to 7500kg and motorcycles).
  • The law in relation to the writing of expert witness reports and what an expert may or may not say in Court.
  • How to present evidence to a Court, tribunal or other arena.
  • How emergency services work both individually and collaboratively at collision scenes and during the post-collision process.

Skills

  • Determine the hazards and implement a safe working environment appropriate to the activity.
  • Identify, preserve and mark the evidence found at the scene of an incident and/or on vehicles and objects relevant to the investigation.
  • Document the scene and scene evidence including vehicles and other relevant features by notes (electronic, written, or audio or a combination) taking measuring either electronically or using manual measuring techniques.
  • Photograph and video the incident scene including vehicles and other relevant features and objects.
  • Use software to create visual products including 2D plans, 3D models and simulations using software.
  • During a vehicle examination identify, document and record the condition of vehicle systems and component parts. Identify defects and faults
  • Following a vehicle examination, describe how any vehicle defects found during the examination process would affect the roadworthiness of a vehicle and how it would or would not have contributed to the collision.
  • Determine the deceleration and acceleration rates of vehicles and other objects using an accelerometer or by drag testing. Adjust the data to take account of slope or partial braking.
  • Recover data from data recorders including digital tachographs, vehicle ECU’s and vehicle telematics.
  • Use the appropriate technique to measure the crush damage caused to a vehicle(s) involved in a collision, assess the principle direction of force and any other adjusting factors to calculate speed.
  • Using Newtonian mechanics calculate speed, time, distance and acceleration
  • Use spreadsheets and other math calculation software to assist in the investigation process.
  • Calculate the range of uncertainty in any calculations.
  • Analyse and interpret the data from data recorders, including ECU’s, digital tachographs, performance computers and vehicle telematics.
  • Use an appropriate method to calculate the driver response time in a variety of situations such as night time recognition, limited visibility, low contrast and looming situations.
  • Calculate the critical speed of vehicles and/or bends.
  • Calculate vehicle speed from pedestrian throw.
  • Calculate speed from CCTV footage.
  • Following a collision, use the appropriate technique to measure the damage to a motorcycle and use the data to calculate its immediate approach speed.
  • Demonstrate how EES, EBS and momentum can be used to assess the speed of a vehicle involved in a collision.
  • Maintain the integrity and security of digital data.
  • Describe the behaviour of a vehicle in the immediate lead up to and during an incident.
  • Carry out experiments as part of an investigation.
  • Interpret and incorporate the results from published literature into the investigation.
  • Identify, record and comment upon the condition of the vehicle, systems and component parts to identify defects, roadworthiness, incident causation, contributory factors
  • Analyse the scene data, witness evidence any experiment’s, calculations and examinations to prepare a written report into the circumstances of a collision.
  • Prepare written reports and in accordance the rules, regulations and guidance in force in relation to expert witnesses.
  • Present evidence to a court or other arena e.g. criminal, civil, Coroners’ courts, tribunal or hearing.
  • Critically review a completed investigation carried out by another investigator. Give written and oral feedback as part of the review.
  • Liaise with other emergency services personnel to ensure that scene evidence is not lost as a result of poor communication between different services.
  • Critically appraise current subject literature and analyse shortcomings
  • Identify a research need and develop a research question.
  • Using the scientific method conduct experiments or analysis to test a hypothesis.
  • From research develop valid and robust conclusions based on observations.

Behaviours

  • Accountability - For self and others to ensure that actions are in the best interest of affected parties
  • Professional integrity - Maintain the highest standards of professionalism and trustworthiness, making sure that values, moral codes and ethical standards are always upheld
  • Emotionally astute - Understand and effectively manage own emotions in stressful situations and treat people with sensitivity
  • Team working - Collaboration, influence, and respect for others. Value diversity and difference in approaches to work, thinking and background
  • Supportive & inspirational leading - Role model the organisational values providing inspiration and clarity to colleagues and stakeholders. Consider how the wider organisation and others are impacted, and help others to deliver their objectives effectively
  • Continuing Professional Development (CPD) - Critically review published research. Accountability of own and others development needs, undertaking CPD. Curiosity of science, mathematics and engineering, proactively developing knowledge to ensure that decisions are based on strong evidence
Apprenticeship category (sector)
Health and science
Qualification level
6
Equal to degree
Course duration
42 months
Maximum funding
£27,000
Maximum government funding for
apprenticeship training and assessment costs.
Job titles include
  • Forensic collision investigator
  • Collision investigator
  • Accident investigator
  • Collision reduction officer
  • coding

View more information about Forensic collision investigator (integrated degree) (level 6) from the Institute for Apprenticeships and Technical Education.