Euro NCAP
The European New Car Assessment Programme (Euro NCAP) is an independent, voluntary initiative founded in 1997 to evaluate and promote the safety performance of new passenger cars available in the European market through rigorous crash testing and assessment protocols.[1] Based in Leuven, Belgium, it is supported by a consortium of European governments, motoring organizations, and research bodies, including promoters such as the Allgemeiner Deutscher Automobil-Club (ADAC) in Germany, the UK Department for Transport (DfT), and the Fédération Internationale de l'Automobile (FIA).[2] Euro NCAP's core mission is to provide transparent, consumer-oriented safety ratings that incentivize automakers to enhance vehicle designs beyond minimum legal requirements, ultimately reducing road fatalities and injuries across Europe.[3] Euro NCAP assesses vehicles using a comprehensive protocol that combines physical crash tests with evaluations of active safety technologies, awarding an overall star rating from one to five stars based on weighted scores in four key categories: adult occupant protection (evaluating crashworthiness for drivers and passengers), child occupant protection (focusing on child restraint systems and compatibility), vulnerable road user protection (assessing risks to pedestrians and cyclists), and safety assist (measuring the effectiveness of features like autonomous emergency braking and lane support).[4] Tests are conducted at accredited facilities across Europe, such as ADAC Technik Zentrum in Germany and TNO in the Netherlands, using standardized scenarios that simulate real-world collisions at speeds up to 64 km/h for frontal impacts and 50 km/h for side impacts.[2] The programme publishes detailed results annually, covering dozens of models, with higher star ratings reflecting superior performance and often requiring advanced features like electronic stability control or cyclist detection systems.[5] Since its inception, Euro NCAP has significantly influenced the automotive industry, with early tests in 1997 revealing critical shortcomings in popular family cars and prompting widespread redesigns to incorporate features like front and side airbags.[1] Key milestones include significant revisions to pedestrian protection protocols in the early 2000s, the addition of safety assist assessments in 2009, and expansions into assisted and automated driving evaluations starting in 2018, alongside a dedicated Truck Safety Rating Scheme launched in 2023.[1] By 2017, nine out of ten new cars sold in Europe carried a Euro NCAP rating, contributing to a marked decline in road deaths through the adoption of life-saving technologies; for instance, the programme's emphasis on autonomous emergency braking has contributed to significant reductions in collisions.[1] Today, it continues to evolve its protocols to address emerging challenges like electric vehicle battery safety and advanced driver assistance systems, including the release of updated protocols in 2025 for implementation starting in 2026, which introduce new assessments for safe driving, enhanced crash avoidance, and improved post-crash safety features for electric vehicles, ensuring ongoing improvements in European road safety standards.[6]Overview
Purpose and Objectives
The European New Car Assessment Programme (Euro NCAP) is an independent consumer safety initiative established in 1997 to deliver rigorous crash test ratings for new vehicles, surpassing the minimum requirements of mandatory European regulations and providing transparent performance data to the public.[1] Modeled after the U.S. New Car Assessment Program introduced in 1979, Euro NCAP adapts these concepts to align with European regulatory frameworks and prioritize evaluations based on prevalent real-world accident scenarios across the continent.[7] By conducting voluntary assessments outside government mandates, it serves as a benchmark for vehicle safety that encourages ongoing innovation without direct enforcement.[8] The core objectives of Euro NCAP center on elevating overall road safety through the dissemination of accessible, star-based ratings that empower consumers to select safer automobiles, thereby creating market incentives for automakers to prioritize protective features in their designs.[9] This public transparency has historically driven manufacturers to voluntarily adopt superior engineering standards, such as enhanced structural integrity and restraint systems, beyond what regulations demand.[8] Additionally, Euro NCAP promotes the integration and refinement of advanced safety technologies, including electronic stability control and autonomous emergency braking, to mitigate collision risks and reduce injury severity in diverse driving conditions.[10] In terms of scope, Euro NCAP focuses on testing newly introduced passenger cars as its primary category, with expansions to include vans, quadricycles, and, more recently, commercial trucks to address broader fleet safety needs across Europe.[5] Assessments encompass key areas such as vehicle crashworthiness to minimize deformation in impacts, occupant protection for adults and children via dummy simulations, safety for vulnerable road users like pedestrians and cyclists through impact mitigation designs, and the effectiveness of active safety systems that prevent or lessen crash occurrences.[11] This comprehensive approach ensures evaluations reflect holistic safety performance, influencing vehicle specifications sold in European markets.[12]Governance and Funding
Euro NCAP operates as a non-profit international association under Belgian law, ensuring its independence from commercial interests in the automotive industry.[8] Governance is managed by a Board of Directors composed of representatives from its member organizations, which include European governments, motoring clubs, consumer groups, and insurers.[13][14] The Board oversees strategic direction, including the election of its President, as demonstrated by the 2024 appointment of Céline Vallaude from the French Ministry of Ecological Transition.[13] A dedicated secretariat, based in Leuven, Belgium, handles day-to-day operations and coordination.[15] Test protocols and technical standards are developed collaboratively by expert working groups, such as the Technical Working Group and specialized committees like the whiplash group, which focus on specific safety aspects.[16][8] Decision-making involves annual Board meetings to approve updates to protocols, with technical committees providing oversight for test development and revisions to align with evolving safety priorities.[17] This structure promotes transparency, as all protocols are publicly available on the Euro NCAP website, allowing stakeholders to review and understand the assessment criteria.[11] Funding for Euro NCAP primarily comes from contributions by its member organizations, including governments, insurers, and motoring clubs, supplemented by support from the European Commission.[18][14] To maintain independence, the organization does not accept direct funding from car manufacturers; instead, manufacturers sponsor testing for their own vehicles on a voluntary basis, covering costs without influencing outcomes or operations.[8] The annual budget supports crash testing, data analysis, protocol development, and public dissemination of results, reinforcing Euro NCAP's role as an impartial consumer safety authority.[18]History
Establishment and Early Development
Euro NCAP was initiated in 1996 by a consortium of European governments and organizations, inspired by the United States' New Car Assessment Program (NCAP) introduced in 1979, to provide independent vehicle safety evaluations beyond mandatory regulations.[19][8] The program was formally established in November 1996, with its inaugural organizational meeting held in December 1996, involving key founding members such as the Swedish National Road Administration, the Fédération Internationale de l'Automobile (FIA), and International Testing (now known as the International Consumer Research and Testing Ltd., ICRT).[19] This formation was driven by the need to address the high rate of road fatalities in Europe, which exceeded 50,000 annually in the 1990s, and to encourage automakers to exceed the minimum standards set by United Nations Economic Commission for Europe (UNECE) regulations through more rigorous, consumer-oriented testing.[8] The official launch occurred in 1997, with the first crash test results published in February 1997, marking the beginning of Euro NCAP's role in influencing vehicle design and consumer choices across Europe.[19] These initial tests focused on frontal offset impacts and side impacts, utilizing procedures developed by the European Enhanced Vehicle-safety Committee (EEVC) to simulate real-world crash scenarios more stringently than UNECE requirements.[8] The tests included assessments for adult and child occupant protection, incorporating child dummies representing 18-month-old and 3-year-old children in restraints, to highlight deficiencies in family cars.[8] A key partnership was established with the UK's Transport Research Laboratory (TRL), which conducted the early tests and provided technical expertise, enabling the program's scientific foundation.[20][8] Euro NCAP introduced its initial four-star rating system in 1997 to communicate safety performance to consumers, with scores based on crash test outcomes emphasizing occupant protection.[8] The first vehicle to achieve a four-star rating was the Volvo S40 in July 1997, demonstrating the program's potential to drive safety advancements by publicly exposing variations in vehicle performance.[20] These early efforts on seven supermini cars set the stage for broader adoption, as the results revealed significant safety gaps and prompted manufacturers to prioritize enhanced crashworthiness.[19]Major Milestones and Expansions
In the early 2000s, Euro NCAP expanded its testing scope to address broader safety concerns beyond adult occupant protection. In 2002, the program revised its pedestrian protection test protocol to make it more demanding, building on the initial tests introduced in 1997, evaluating vehicle designs for impact on vulnerable road users through head and leg impact assessments. This was followed in 2003 by enhanced emphasis on child occupant protection, incorporating dynamic tests with child dummies to better simulate real-world restraint system performance. By 2009, Euro NCAP refined its five-star rating scale, making it more stringent by increasing the difficulty of achieving top scores through updated crash test criteria and the addition of a side pole impact test. The 2010s marked significant advancements in active safety integration and test sophistication. In 2009, Euro NCAP launched a dedicated Safety Assist rating category, assessing technologies like electronic stability control and autonomous emergency braking (AEB) as standard components of vehicle evaluations. Further refinements included the introduction of whiplash protection assessments in 2008, with updated assessments using the BioRID II dummy in 2015, and far-side impact tests to evaluate lateral collision risks for rear passengers in 2020. By 2017, the program had rated over 1,000 passenger cars, demonstrating its growing influence on the European automotive market. Entering the 2020s, Euro NCAP continued to evolve with comprehensive protocol overhauls and program expansions. The 2023 update integrated post-crash safety evaluations, such as eCall functionality and rescue sheet compatibility, into the core rating scheme to address survivability after collisions. In 2024, the program extended its assessments to commercial trucks for the first time, with initial heavy truck safety ratings focusing on direct vision, AEB for vulnerable road users, and lane support systems. By early 2025, Euro NCAP approved protocols for 2026, emphasizing driver monitoring systems to detect drowsiness and distraction, alongside increased use of virtual testing simulations for efficiency and realism. In November 2024, the first heavy truck ratings were published, with models like the Volvo FH and Mercedes-Benz Actros achieving five stars. The 2025 Year in Numbers report confirmed 41 new models tested, 28 earning five stars. Key milestones underscore Euro NCAP's impact and growth. During its 20th anniversary in 2017, the program reported that its rigorous standards had contributed to saving an estimated 78,000 lives across Europe since 1997. The 2024 "Year in Numbers" report highlighted ongoing progress, noting that 28 new vehicle models received five-star ratings amid stricter criteria. Organizationally, Euro NCAP expanded to eight government sponsors by 2022, enhancing its regulatory alignment. Notably, the program's advocacy influenced European Union regulations, such as the mandate for AEB systems on new vehicles from July 2022, directly inspired by Euro NCAP's safety assist evaluations.Testing Protocols
Crash Protection Assessments
Euro NCAP's crash protection assessments evaluate how well vehicles protect occupants during simulated collisions through a series of physical crash tests, focusing on injury risks to the head, chest, neck, and lower limbs. These tests use anthropomorphic test dummies to measure biomechanical responses and are designed to replicate common real-world accident scenarios, such as frontal and lateral impacts. The assessments contribute to the Crash Protection score, which encompasses adult and child occupant protection and accounts for 50% of the overall vehicle rating under the 2023 protocol.[21] Frontal impact tests consist of two primary configurations to assess protection in offset and full-width crashes. The offset test involves a mobile progressive deformable barrier striking 40% of the vehicle's front at 64 km/h, simulating a collision with another vehicle's front corner and emphasizing structural integrity and restraint system performance. The full-width rigid barrier test occurs at 50 km/h with 100% overlap, targeting scenarios like rear-end collisions where the entire front absorbs energy, particularly challenging chest and lower leg protection. In both tests, dummies are instrumented to record injury criteria such as the Head Injury Criterion (HIC), chest deflection (typically limited to 42-60 mm), and femur compression forces (up to 9 kN), with scores derived from thresholds that reduce injury risk.[22][22] Side impact tests address lateral collisions, which often result in severe thoracic and pelvic injuries due to less available crush space. The mobile deformable barrier (AE-MDB) test uses a 60 km/h impact perpendicular to the vehicle's side, mimicking a T-bone intersection crash, while the oblique pole test propels the vehicle at 32 km/h into a rigid, 254 mm diameter pole at a 75-degree angle to simulate striking a tree or utility pole. These tests measure thorax compression (28-50 mm), pelvic force (up to 2.8 kN), and head acceleration (HIC limited to 700), with additional far-side evaluation via sled tests to assess occupant excursion across the vehicle interior.[22][22][21] Occupant protection is categorized for adults and children, using specialized dummies to represent diverse body sizes. Adult assessments employ the Hybrid III 50th percentile male dummy for frontal tests, the WorldSID 50th percentile for side impacts, and the bioRID II rear impact dummy for whiplash evaluation in low-speed rear-end scenarios (15-24 km/h pulses), focusing on neck injury criterion (NIC) values up to 24 m²/s². Child protection uses Q-series dummies (Q3 for 1.5-year-olds, Q6 for 6-year-olds, and Q10 for 10-year-olds) positioned in child restraint systems during frontal and side tests, assessing head, neck, and chest injuries with criteria like HIC (up to 1000 for children) and chest acceleration (55 g). These categories ensure evaluations cover vulnerable groups, with rear passenger protection increasingly emphasized in full-width and far-side tests.[22][22][21] Scoring for crash protection is percentage-based, converting dummy injury measurements into points that reflect protection levels, with green bands indicating low injury risk (e.g., HIC < 500) and red indicating high risk. Frontal tests contribute up to 24 points (offset: 16, full-width: 8), side tests up to 24 points (MDB: 16, pole: 8), and whiplash 1 point, aggregated within the adult occupant sub-score; child scores are derived from similar metrics in dedicated tests, including dynamic and static restraint checks. These sub-scores form part of the overall Crash Protection category, which is weighted at 50% of the total rating and prioritizes holistic performance, penalizing poor protection in any body region.[22][21] The 2023 protocols enhanced crash protection assessments by incorporating real-world speed variations through virtual and sled tests for robustness (adding 10 points each for frontal and side), increasing scrutiny on multiple occupant scenarios like rear child restraints in offset impacts, and elevating far-side protection requirements to better align with accident data showing higher injury risks in angular crashes. The 2025 protocols (v1.1, September/October) further integrate virtual simulations for validating performance in frontal and side impacts alongside physical tests, maintaining core test speeds while enhancing assessment robustness.[21][23][24]Vulnerable Road User and Avoidance Tests
Vulnerable Road User (VRU) tests in Euro NCAP evaluate the passive protection provided by vehicle fronts to pedestrians and cyclists during impacts. These assessments include impacts with a child headform (representing a 5th percentile female or 10-year-old child) and an adult headform at 35-40 km/h across the bonnet, scored based on the Head Injury Criterion (HIC15) to measure contact forces and injury risk. Pelvis and leg protection is tested using the Advanced Pelvis and Leg Impactor (aPLI) on the bonnet leading edge and upper legform impactor on the bumper, assessing forces and moments that could cause pelvic fractures or thigh injuries. For cyclists, a leg-form impactor simulates a cyclist's leg striking the vehicle front, focusing on coverage and force distribution to minimize lower limb injuries.[25][26] Avoidance tests assess active safety systems designed to prevent or mitigate collisions involving VRUs and other vehicles. Autonomous Emergency Braking (AEB) for car-to-pedestrian and car-to-cyclist scenarios is evaluated in daytime and nighttime conditions, with the test vehicle approaching a stationary or moving dummy at speeds up to 60 km/h for crossing paths or 12 km/h for longitudinal approaches. Car-to-car AEB tests cover city speeds (up to 50 km/h) for stationary, slow, and moving targets, as well as highway scenarios (up to 140 km/h) for following vehicles, emphasizing detection and braking response. Lane support systems, including Lane Keep Assist (LKA) and Emergency Lane Keep Assist (ELK), are tested for corrective steering in unintentional lane departures on curves and straight roads. Speed assistance evaluates Intelligent Speed Assistance (ISA) for accurate speed limit recognition and enforcement through warnings or limiter functions.[27][26][28] Safe driving elements, introduced in 2023, incorporate driver monitoring systems to detect drowsiness, distraction, and impairment through eye gaze, head pose, and behavioral analysis, issuing escalating alerts to re-engage the driver. These tests integrate with intersection support scenarios, such as AEB responses to pedestrians or cyclists crossing at junctions, and cyclist-specific crossings where the vehicle turns into the path of an oncoming cyclist. Driver monitoring performance is linked to avoidance capabilities, requiring effective detection to score points in adaptive cruise control and steering assistance.[21] Scoring for VRU protection combines passive and active elements, with passive impact tests awarded points on a percentage basis derived from injury severity metrics: headform zones are color-coded (green for HIC15 <1000, red for ≥1700), contributing up to 36 points based on coverage; leg and pelvis impacts use linear scales for forces (e.g., upper leg <5.0 kN full points). Avoidance scoring focuses on mitigation, awarding full points for AEB if impact speed is reduced to 0 km/h (green), partial for <10 km/h (yellow), and none for >30 km/h (red), across scenarios like daytime pedestrian (6 points max) and nighttime cyclist (3 points max). Overall VRU scores require a minimum of 10 points from passive impacts to qualify active contributions.[26] The 2025 protocols expand cyclist scenarios to include low-speed collisions like dooring (vehicle door opening into a cyclist's path at 10-20 km/h) and obstructed crossing paths with sensor blockages, enhancing realism for urban environments. These updates also introduce virtual simulation validation for certain AEB scenarios to verify system performance alongside physical tests.[29]Post-Crash Safety Evaluations
Post-crash safety evaluations in Euro NCAP focus on enhancing vehicle survivability and facilitating emergency response after a collision, emphasizing rescue operations and structural integrity to minimize secondary injuries and fatalities. These assessments, introduced as a distinct category in the 2023 protocols, inspect vehicles post-crash to ensure accessibility for first responders and compliance with safety features that support rapid extrication.[30] By evaluating elements like door functionality and hazard deactivation, Euro NCAP aims to bridge the gap between crash impact and medical intervention, where delays can significantly affect outcomes.[31] A key component is the Euro Rescue initiative, launched in 2020 and enhanced in 2023, which provides standardized rescue information through a free mobile app for first responders. The app, downloaded over 200,000 times by 2023, offers offline access to ISO 17840-compliant rescue sheets for more than 1,500 vehicle models in all EU languages, searchable by brand, model, energy type, or QR code scanning.[30] QR codes on vehicles enable quick retrieval of critical data, such as high-voltage system locations in electric vehicles (EVs), reducing identification time during emergencies. This initiative integrates with Euro NCAP testing by verifying the accuracy and availability of rescue sheets, ensuring they fit within four A4 pages and cover essential extrication guidance.[31] Rescue and extrication tests assess ease of access and hazard mitigation post-impact. Door opening is evaluated for both interior (after low-voltage drop within 2 minutes) and exterior forces (≤750 N), including tailgate access without tools, to confirm structural stability for occupant removal. Battery cut-off procedures for high-voltage systems in EVs and hybrids are scored based on automatic activation (5 points), first manual option (2 points), and second manual backup (1 point), requiring no special tools or personal protective equipment (PPE). e-Call functionality is tested for advanced 112 systems (15 points), which transmit occupant count, impact direction, and Delta-V, and third-party service e-Calls (15 points) with European Accident Statement coverage in four languages (English, German, French, Spanish) and hazard detection.[31] These elements prioritize response time reduction by standardizing procedures compatible with emergency services.[30] Post-crash metrics include fuel system integrity for internal combustion engine vehicles, ensuring compliance with UN leakage requirements; seatbelt retention, with buckle release forces ≤60 N in frontal tests or ≤100 N in side tests; and airbag deployment status communication to responders. For EVs, compatibility with emergency services is verified through UN regulations (R94, R95, R135, R137) for electrical safety, including thermal propagation management providing at least 20 minutes of lead time before potential hazards. Multi-collision braking is also assessed, requiring ≥3 m/s² deceleration and non-deactivatable activation to prevent secondary impacts.[31] Scoring for post-crash safety totals 100 points, distributed as Rescue Information (40 points), Post-Crash Intervention (25 points), and Extrication (35 points), with awards for features that enhance structural stability and expedite response. From 2023, these form the separate Post-Crash Safety category weighted at 10% of the overall star rating, with certain extrication elements assessed post-crash tests contributing up to 4 bonus points to the Crash Protection score.[30] The 2025 protocols mandate both virtual simulations and physical verifications for these scenarios, using crash test inspections to confirm UN electrical safety compliance.[31] Looking ahead, the 2026 protocols expand post-crash evaluations to address emerging risks, incorporating fire suppression measures such as dashboard indicators for thermal runaway in batteries, with stability levels offering 20, 40, or 90 minutes post-detection, and early alerts via phone, sound, or light for parked vehicles. Multi-collision response enhancements include automatic hazard light activation and promoted braking to mitigate secondary crashes, alongside simplified rescue sheets and energy deactivation protocols accessible without PPE. These updates, scoring up to 100 points in the post-crash stage, form part of a new four-phase rating system (Safe Driving, Crash Avoidance, Crash Protection, Post-Crash Safety) to further streamline emergency operations.[32]Ratings System
Star Ratings and Scoring
Euro NCAP employs a five-star rating system to evaluate vehicle safety, where five stars indicate excellent performance and one star denotes poor protection. The scale ranges from 1 to 5 stars, with 0-star ratings discontinued since the early years and 4-star ratings remaining possible, though increasingly rare as safety standards evolve. Star assignments are determined by percentage scores in key assessment categories, with thresholds applied individually to each category to assign stars, while the overall rating reflects a weighted aggregation of these scores.[33] The scoring methodology aggregates results from four primary areas: Adult Occupant Protection, Child Occupant Protection, Vulnerable Road Users (VRU), and Safety Assist. Raw test data from crash simulations, active safety evaluations, and other assessments are normalized to percentages within each category, reflecting the proportion of maximum achievable points earned. The overall star rating is derived from a weighted average of these category percentages, using weights of 40% for Adult Occupant, 20% for Child Occupant, 20% for VRU, and 20% for Safety Assist. A key rule ensures that no category scores below three stars (equivalent to at least 50% in most cases) for a vehicle to achieve an overall five-star rating, preventing compensation by stronger performance in other areas alone.[4][34] Category-specific thresholds guide star assignments: for Adult and Child Occupant Protection, five stars require 80% or higher, four stars 70-79%, three stars 60-69%, two stars 50-59%, and one star below 50%; for VRU and Safety Assist, the five-star threshold is 70% or higher, four stars 60-69%, three stars 50-59%, two stars 40-49%, and one star below 40%. These percentages translate raw data—such as injury risk metrics from dummy sensors or effectiveness rates of avoidance systems—into consumer-friendly ratings, emphasizing balanced performance across protections. In a 2023 review, Euro NCAP announced the addition of a Post-Crash Safety category weighted at 10% for protocols starting in 2026, focusing on eCall functionality and rescue accessibility to address survival post-impact. Driver monitoring system assessments, emphasizing distraction and drowsiness detection, are incorporated in the new Safe Driving category from 2026.[4][21] Euro NCAP publishes transparent spreadsheets detailing score calculations for each rated vehicle, allowing verification of how individual test outcomes contribute to final percentages. For instance, the 2025 BMW X3 achieved five stars overall with an 88% score in Adult Occupant Protection, demonstrating strong frontal and side impact performance.[11][35]Assessment Categories and Weights
Euro NCAP's assessment framework evaluates vehicle safety through four primary categories that contribute to an overall percentage score, which determines the star rating. These categories emphasize both passive crash protection and active safety features, with weights reflecting their relative importance: Adult Occupant Protection at 40%, Child Occupant Protection at 20%, Vulnerable Road User (VRU) Protection at 20%, and Safety Assist at 20%. This structure, in place since the early 2010s with refinements through 2023, prioritizes occupant safety while increasingly incorporating prevention technologies.[4] The Adult Occupant Protection category examines crash performance for adults, including frontal offset and full-width barrier tests for head, neck, chest, and lower limb injuries; side barrier, pole, and far-side impacts; and whiplash assessments from rear-end collisions via seat and head restraint evaluations. Sub-components focus on injury risk metrics like head injury criterion (HIC) and chest compression to ensure comprehensive protection across impact types.[36][22] Child Occupant Protection assesses risks to children aged 1.5 and 3 years (using Q1.5 and Q3 dummies) and older children (6 and 10 years, using Q6 and Q10), through dynamic frontal and side impact tests, child restraint system (CRS) installation checks, and safety features. Key sub-components include CRS fit for ISOFIX and i-Size systems, restraint usability, and airbag deactivation indicators; vehicles lacking ISOFIX in rear outboard seats face point penalties, establishing a performance floor to promote compatibility and ease of secure installation.[37][38] VRU Protection targets pedestrian and cyclist safety, scoring active (e.g., AEB pedestrian detection) and passive (e.g., bonnet deformation) elements. Sub-components cover head impacts on the bonnet and windscreen (using adult and child headforms), pelvis and leg impacts at the bumper (using legform impactors and flexible pedestrian leg impactor), and cyclist-specific tests for torso and head protection, aiming to minimize injury severity in urban collisions.[26] Safety Assist evaluates driver assistance systems for crash prevention, including autonomous emergency braking (AEB) for car-to-car, pedestrian, and cyclist scenarios; lane keep assist and emergency lane keep systems; speed assistance; and driver monitoring for drowsiness and distraction. Sub-components test detection accuracy, response timeliness, and system robustness across speeds and conditions, with points awarded for effective mitigation of common accident types.[39] To prevent a weak performance in one category from unduly influencing the overall rating, Euro NCAP enforces minimum thresholds; for example, red-rated body regions in VRU tests cap the star rating at four, and child protection requires baseline CRS compatibility to avoid score drag. Prior to 2023, the system weighted crash protection categories (adult, child, VRU) at approximately 80%, with safety assist at 20%, emphasizing reactive measures. The 2023 Rating Review balanced this toward 50% protection and 50% prevention/post-crash focus for future protocols.[21] From 2026, the categories will evolve into Safe Driving (20% weight, newly introduced for occupant monitoring, driver engagement, and vehicle assistance like adaptive cruise control); Crash Avoidance (20%, covering AEB, lane support, and low-speed maneuvers); Crash Protection (50%, integrating adult/child occupant tests, whiplash, and VRU impacts for head, pelvis, and legs); and Post-Crash Safety (10%, assessing rescue sheets, eCall, and extrication ease). This shift increases emphasis on proactive safety, with stricter minimum floors—such as 10 points required in VRU impacts to qualify for avoidance scoring—and phased thresholds (e.g., 60% in Safe Driving for five stars in 2026, rising to 70% in 2027).[21][40]| Category (2023-2025) | Weight | Key Sub-Components | Category (2026+) | Weight | Key Sub-Components |
|---|---|---|---|---|---|
| Adult Occupant Protection | 40% | Frontal/side/whiplash impacts | Crash Protection | 50% | Frontal/side/rear impacts, VRU impacts |
| Child Occupant Protection | 20% | CRS fit/dynamic tests, ISOFIX | (Integrated in Crash Protection) | - | Child dummy tests in impacts |
| VRU Protection | 20% | Pedestrian/cyclist head/leg/bonnet | (Integrated in Crash Protection & Avoidance) | - | Impact zones, AEB VRU |
| Safety Assist | 20% | AEB/lane support/driver monitoring | Crash Avoidance (20%) Safe Driving (20%) Post-Crash Safety (10%) | 50% total | AEB/lane; monitoring/engagement; rescue/eCall |
Awards and Recognitions
Euro NCAP's Best in Class awards recognize vehicles that achieve the highest overall safety performance within specific market segments, such as large family cars, small SUVs, and executive cars, based on a weighted sum of scores from adult occupant protection, child occupant protection, vulnerable road user protection, and safety assist categories.[41] These annual honors highlight top performers tested in the preceding year and are determined by the vehicles' overall percentage scores, ensuring segment-specific comparisons like superminis against superminis or large SUVs against similar models. The awards are published each January alongside Euro NCAP's "Year in Numbers" report, which summarizes testing outcomes and trends.[42] In 2024, the Mercedes-Benz E-Class earned the title of Best Performer overall, with scores of 92% in adult occupant protection, 90% in child occupant protection, 84% in vulnerable road user protection, and 87% in safety assist. Joint winners in the large family car segment were the Volkswagen Passat and Škoda Superb, both scoring 93% in adult occupant protection, 87% in child occupant protection, 82% in vulnerable road user protection, and 80% in safety assist. The ZEEKR X claimed Best in Class for small SUVs (pure electric), achieving 91% in adult occupant protection, 90% in child occupant protection, 84% in vulnerable road user protection, and 83% in safety assist, while the Mazda CX-80 topped the large SUV category with 92% in adult occupant protection, 88% in child occupant protection, 84% in vulnerable road user protection, and 79% in safety assist.[43] Other recognitions include the Safest Family Cars list, which spotlights vehicles excelling in child occupant and overall family safety; for instance, the Mercedes-Benz E-Class topped this in 2024 with its strong child protection score of 90%.[44] Euro NCAP also issues Advanced Driving Awards through its assisted driving gradings, rewarding superior performance in driver assistance technologies, such as the "Very Good" rating achieved by the Kia EV3 for its competence in assistance and safety backup.[45] For commercial vehicles, the Safer Trucks program provides ratings in categories like safe driving and collision avoidance, with examples including the Scania G-series scoring 71% in safe driving for city operations and the Volvo FH Aero reaching 80% in safe driving.[46] Starting in 2026, the Best in Class evaluations will incorporate a new post-crash safety assessment, evaluating factors like eCall functionality and rescue accessibility to further emphasize comprehensive vehicle safety. In 2025, Euro NCAP tested 23 models, awarding 5 stars to 18, with standout results for the Leapmotor B10, Volvo EX90, and Tesla Model Y. Best in Class for 2025 will be announced in January 2026.[40][47]| Category | Winner(s) | Key Scores (2024) |
|---|---|---|
| Best Performer | Mercedes-Benz E-Class | Adult: 92%, Child: 90%, VRU: 84%, Safety Assist: 87% |
| Large Family Car | VW Passat / Škoda Superb (joint) | Adult: 93%, Child: 87%, VRU: 82%, Safety Assist: 80% |
| Small SUV (Pure Electric) | ZEEKR X | Adult: 91%, Child: 90%, VRU: 84%, Safety Assist: 83% |
| Large SUV | Mazda CX-80 | Adult: 92%, Child: 88%, VRU: 84%, Safety Assist: 79% |