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VEX Robotics

VEX Robotics is a leading educational platform that provides modular robotics kits, curricula, and competitive programs to engage students from pre-kindergarten through university in STEM (science, technology, engineering, and mathematics) learning through hands-on design, building, and programming of robots. Developed as the largest subsidiary of Innovation First International (IFI), VEX emphasizes accessibility, scalability, and affordability to foster creativity, teamwork, leadership, and problem-solving skills among over 1 million students worldwide. Founded in 1996 by electrical engineer Tony Norman and mechanical engineer Bob Mimlitch—who met while mentoring a local high school robotics team—IFI initially focused on electronics for autonomous robots before expanding into educational tools. VEX itself originated from a 2005 partnership between IFI and RadioShack to create an affordable robotics design system, which IFI fully acquired in 2006 to establish the VEX Robotics division and scale its global impact. Today, VEX operates in more than 60 countries, serving over 22,000 schools and supporting 24,000 competition teams with free, standards-aligned curricula and professional development resources. The platform's product lineup spans developmental stages, including VEX 123 for pre-K interactive play, VEX GO for grades 3–5 with snap-together construction, VEX IQ for grades 5–8 featuring smart components and block-based coding, and advanced systems like VEX EXP, VEX V5, and VEX AIR for grades 8–university with metal structural elements, sensors, and text-based programming options via VEXcode. These kits integrate with partnerships such as Project Lead The Way (PLTW) and the Robotics Education & Competition (REC) Foundation to align with educational standards and real-world applications. At its core, VEX, in partnership with the Robotics Education & Competition Foundation (REC Foundation), supports the world's largest student robotics competitions, certified by Guinness World Records as the largest robotics competition in the world. The annual VEX Robotics World Championship, managed and hosted by the REC Foundation, draws over 20,000 participants from more than 2,400 teams across 60+ nations. Events like the VEX Robotics Competition (VRC) for high school and university levels, VEX IQ Competition (VIQC) for middle school, and VEX U for college emphasize game-based challenges where teams design and program robots to score points in alliance matches, promoting engineering innovation and global collaboration. Since its inaugural VRC season in 2007–2008 with the "Bridge Battle" game, the program has grown to include diverse formats, reaching students in formal classrooms, after-school clubs, and international qualifiers.

History

Founding and Early Development

VEX Robotics originated as a division of Innovation First International (IFI), founded in 1996 by Tony Norman, an electrical engineer, and Bob Mimlitch, a mechanical engineer, in Greenville, Texas, where they began operations in Norman's garage as mentors for the FIRST Robotics Competition. The duo's passion for STEM education drove the creation of VEX in the early 2000s, focusing on accessible, modular robotics kits that emphasized creative problem-solving and hands-on learning for students. These initial kits utilized a structural system of aluminum extrusions with square holes spaced at 0.5-inch intervals, enabling straightforward assembly using standard fasteners without requiring advanced tools or machining. In April 2005, IFI partnered with RadioShack to launch the first VEX Robotics Design System starter kits, priced at $299.99 and sold exclusively through the retailer's stores, marking a significant step in making robotics education widely available to schools and hobbyists. The kits included over 500 pieces, such as motors, gears, and sensors, allowing users to build and program functional robots inspired by proven designs from FIRST competitions. Due to the product's rapid popularity, IFI acquired full ownership of the VEX technology and intellectual property from RadioShack in 2006, enabling independent expansion and refinement of the platform. The introduction of organized competitions accelerated VEX's growth, beginning with the 2007-2008 season's "Bridge Battle" game, where two-team alliances competed on a 12x12-foot field to score points by placing tennis balls into goals and on elevated bridges. This debut season shifted VEX from educational tools to a competitive program, culminating in the inaugural VEX Robotics World Championship in Los Angeles, drawing over 1,000 students from regional qualifiers worldwide. Subsequent seasons built on this foundation with "Elevation" in 2008-2009, challenging teams to stack and elevate goals on a multi-level field, and "Clean Sweep" in 2009-2010, where robots maneuvered oversized balls across a divided field to score by pushing them into opponent zones. Early expansion included the establishment of regional tournaments across the U.S. and internationally, fostering community involvement and providing pathways to national events.

Growth and Organizational Changes

In 2006, Innovation First International (IFI) acquired full control of the VEX Robotics platform from RadioShack, enabling the company to independently expand its educational outreach and product development without retail distribution constraints. This shift allowed IFI, founded by Tony Norman and Bob Mimlitch, to focus on scaling STEM programs for K-12 and university levels, building on VEX's 2005 launch as an educational tool inspired by FIRST Robotics. The VEX Robotics Competition achieved global recognition in April 2018 when Guinness World Records certified it as the largest robotics competition, highlighted by the VEX Worlds event that year featuring 1,648 teams from 30 nations. By that time, the program had grown to encompass over 20,000 registered teams worldwide, reflecting rapid expansion driven by new platforms like the VEX IQ system launched in 2013 to engage elementary and middle school students with snap-together components and simplified programming. This was followed by the introduction of the VEX V5 platform in 2017, which incorporated advanced sensors, metal structural components, and modular electronics to support high school and advanced users, further broadening participation across age groups. In 2019, the Robotics Education & Competition Foundation (RECF), a nonprofit established in 2011 to promote STEM through hands-on learning, assumed primary oversight of VEX competitions, creating a clear separation between event management and IFI's product development responsibilities. This organizational change enhanced governance by focusing RECF on equitable access, diversity, and international growth, while IFI concentrated on hardware innovation. In December 2022, co-founder Tony Norman stepped down as President and CEO of IFI, transitioning leadership while remaining involved. As of 2025, VEX operates in more than 60 countries, serving over 24,000 teams with more than 1,200 competitions annually, supported by key partnerships such as a decade-long collaboration with NASA to integrate aerospace-themed challenges and provide grants for underserved communities.

Platforms

Elementary Platforms: VEX 123 and VEX GO

VEX 123 is an entry-level robotics system designed for students in Pre-K through Grade 2, emphasizing hands-on, screen-free exploration of STEM concepts through interactive play. The system includes the 123 Robot, a compact, pre-assembled device, along with a Coder controller and Coder Cards that enable simple programming via touch-based inputs or physical cards, without requiring traditional coding or devices. Activities focus on foundational skills such as cause-and-effect relationships, sequencing, and problem-solving, often integrated into storytelling and role-playing scenarios to foster creativity and social-emotional learning. For instance, students can use the robot to match emotion codes to story prompts, creating their own narratives while observing robot responses like movements and sounds. VEX GO builds on this foundation for students in Grades 3 through 5, introducing modular construction and basic programming to develop engineering design processes. The kits feature durable plastic structural pieces connected via color-coded pins, pegs, and standoffs, alongside motors, the GO Brain controller, and sensors such as the Eye Sensor for line following or the Electromagnet for object manipulation. Programming occurs through the VEXcode GO app, which uses a drag-and-drop block interface based on Scratch, allowing students to control robot behaviors in project-based activities like building robotic arms or exploring physical science themes. Curricula, including STEM Labs units, guide teachers in facilitating hands-on projects that align with the engineering design process, such as prototyping solutions to real-world challenges. Both platforms utilize affordable, robust plastic components suitable for classroom and after-school environments, promoting accessibility and repeated use without complex assembly tools. They align with Next Generation Science Standards (NGSS) through integrated curricular resources that address science, engineering, and computational thinking practices. Digital resources like VEX STEM Labs provide teacher-guided projects, enhancing conceptual understanding with rubrics and extension activities. These elementary systems serve as a gentle progression to more advanced platforms like VEX IQ for middle school learners.

Middle School Platform: VEX IQ

VEX IQ is a robotics platform designed specifically for middle school students, emphasizing accessible building, coding, and engineering concepts through hands-on activities. Introduced in 2013, it provides a scalable system that bridges elementary-level play with more advanced high school platforms, allowing students to develop skills in STEM without requiring prior experience. The platform uses durable, colorful components to foster creativity and teamwork in classroom or club settings. The hardware of VEX IQ consists of injection-molded plastic structural pieces that snap together easily, enabling quick assembly of functional robots. These pieces form the chassis and mechanisms, supported by smart cables that simplify wiring by automatically connecting motors and sensors to the central Robot Brain without manual port assignments. Key components include up to six smart motors for motion, and sensors such as the optical sensor for color detection, distance sensor for proximity measurement, bumper switch for contact detection, and touch LED for interactive feedback. The system is designed for compact robots, with competition size limits typically around 12 x 12 x 12 inches in earlier seasons, though specific dimensions vary by game rules to encourage innovative designs within constrained spaces. Software for VEX IQ is provided through VEXcode IQ, a free, user-friendly environment that primarily uses blocks-based programming to teach logical sequencing and problem-solving, ideal for beginners. For more advanced users, it also supports text-based languages like Python and C++ to introduce computational thinking and code efficiency. The software runs on multiple devices, including Chromebooks, iPads, and PCs, with automatic firmware updates ensuring compatibility across hardware generations. This dual approach allows educators to differentiate instruction based on student readiness. VEX IQ kits are categorized to suit different educational needs, starting with the Education Kit for classrooms, which includes over 750 parts for basic builds and serves 2-4 students. Competition Kits expand on this with 1,750+ parts, incorporating drivetrain assemblies for mobility and optional pneumatics kits for advanced mechanisms like grippers or lifts. The platform received a significant update with the second-generation release in August 2021, featuring improved batteries for longer runtime, new sensors like a 3-axis gyroscope, and enhanced compatibility while maintaining backward support for first-generation parts. Educational integration is supported by comprehensive curricula, including standards-aligned STEM Labs that cover robotics fundamentals such as mechanics, electronics, and programming, often used in over 17,000 competition teams during the 2024-2025 season.

High School Platform: VEX V5

The VEX V5 platform serves as the primary robotics system for high school students, emphasizing advanced engineering, programming, and competition readiness through a modular design that supports complex robot builds. Introduced in 2017 as the successor to the VEX EDR system, V5 builds on two decades of educational robotics experience to provide greater flexibility and power for STEM learning. The platform features an aluminum-based structural system, enabling durable constructions with components such as beams, plates, channels, angles, gussets, and gears, drawn from a library exceeding 1,000 unique parts to facilitate innovative designs like drivetrains, manipulators, and mechanisms. Competition kits, such as the V5 Competition Super Kit, include over 1,500 components to equip teams for full-season builds. At the core of V5 hardware is the V5 Robot Brain, a microcontroller with a dual Cortex-A9 processor and FPGA for enhanced performance, offering 21 smart ports that automatically detect and power connected devices. These ports support up to eight V5 Smart Motors (each delivering 11W peak power with integrated encoders for precise position and velocity feedback) and additional peripherals, with the combined power of all motors limited to 88 W per competition rules. Sensors compatible with the system include the Inertial Sensor (combining a 3-axis gyroscope and accelerometer for orientation and acceleration data), built-in motor encoders (providing up to 1,800 ticks per revolution depending on gear ratio), and the Vision Sensor for object detection and tracking. Robots built on V5 must fit within an 18 x 18 x 18 inch (457 mm) sizing box at the start of matches, promoting compact yet expandable designs without a strict weight limit beyond practical battery and structural constraints (typically around 18 kg for competition viability). Software development for V5 centers on the official VEXcode V5 environment, a free integrated development environment (IDE) that supports both block-based programming for beginners and text-based coding in Python or C++ for advanced users, allowing seamless progression from simpler platforms like VEX IQ. Third-party options include PROS, a C++-based kernel developed by Purdue University for high-level customization, with version 4.x supporting V5 hardware through enhanced API features like advanced task management and hardware abstraction as of 2025. The VEXos firmware, updated to version 1.1.5 in September 2024, includes optimizations for device compatibility and stability. By 2025, V5 has seen updates enhancing usability, such as improved battery management in V5 batteries (offering 30-45 minutes of runtime under heavy load) and integration with AI-compatible sensors like the VEX AI Vision Sensor for machine learning-based object recognition. Accessibility remains a priority, with over 14,000 teams from 53 countries participating in V5-based competitions during the 2024-2025 season. Entry-level kits start at around $200 for basic structural bundles, while full competition sets like the V5 Competition Starter Kit cost approximately $1,245, making it scalable for schools and clubs.

University and Advanced Platforms: VEX U and VEX AI

VEX U utilizes the VEX V5 hardware platform but incorporates relaxed construction rules to foster greater engineering flexibility for university-level participants. Teams must start within the standard 18 x 18 x 18 inch sizing box, the same as in VRC, with expansion allowed per game rules, and are permitted to incorporate 3D-printed components, machined parts, raw materials, and custom electronics to encourage innovative designs. Matches in VEX U follow the same game objectives as the VEX V5 Robotics Competition but feature the standard 15-second autonomous period followed by 45 seconds of driver control, allowing teams to demonstrate advanced programming and mechanical integration. This format emphasizes engineering innovation by prioritizing complex autonomous behaviors and strategic robot development over basic operation. In 2025, over 300 university teams participated in VEX U events worldwide, reflecting its growing adoption in higher education for hands-on STEM training. VEX AI, launched as a pilot program in 2020, represents a specialized extension of VEX platforms tailored for advanced autonomous robotics at the university and high school levels. The competition requires fully autonomous operation with no driver control, where each team deploys two robots that must collaborate without human intervention, supported by unlimited motor usage and allowance for custom electronics to enable sophisticated behaviors. Advanced sensors, including the VEX GPS for precise positioning and the AI Vision Sensor for real-time object recognition and distance measurement, form the core of robot capabilities, integrating machine learning algorithms for tasks like path planning and opponent response. The 2025 VEX AI Robotics Competition Championship took place in Houston, Texas, highlighting machine learning integration through challenges focused on sensor fusion and adaptive decision-making. Unique game elements, such as object recognition tasks, demand robust AI programming to score points autonomously within a two-minute match. Both VEX U and VEX AI leverage the VEXcode programming environment, including support for advanced tools like PROS for C++ development on V5 hardware, enabling teams to implement complex algorithms and custom code. VEX AI further requires dedicated add-on kits costing over $500, which provide essential AI sensors and communication modules like VEX LINK for robot-to-robot coordination. To prepare students for AI-focused competitions, VEX released the AIM coding robot in February 2025, a compact platform with built-in AI Vision and omni-drive capabilities for introductory machine learning exercises in Python or blocks. While VEX U teams engage with standard V5 game rules adapted for collegiate play, VEX AI introduces distinct autonomous challenges that prioritize AI-driven innovation over manual control.

Competitions

Competition Format and Rules

VEX Robotics competitions are structured around student teams, each consisting of one or more students coached by adult mentors who provide guidance but minimal direct involvement in design, building, or programming. Eligibility is determined by age or grade level aligned with specific platforms: VEX IQ targets elementary and middle school students up to 15 years old (born after May 1, 2010), VEX V5 serves middle and high school students up to 19 years old (born after May 1, 2006 for the 2025-2026 season), and VEX U is for university-level participants. Teams register annually through RobotEvents.com, paying a $200 fee per team for the 2025-2026 season, which grants access to official events and resources. Matches follow a standardized yet platform-specific format to emphasize engineering and strategy. In VEX V5 and VEX U, alliances of two robots compete in 15-second autonomous periods followed by 1 minute and 45 seconds of driver-controlled play, testing programming precision and human-robot interaction. VEX IQ features 60-second teamwork matches with two-robot alliances focused on collaborative challenges. Complementing matches, skills challenges allow individual robots to demonstrate capabilities in driver-controlled and programming-only modes, scoring points based on task completion without opponents. General rules ensure safety, fairness, and educational integrity across all competitions. Robots undergo mandatory inspections to verify compliance with size limits (e.g., 18 x 18 x 18 inches for VEX V5), construction using official components, and safety standards before participation. The Gracious Professionalism code, a core principle, requires teams to exhibit respect, integrity, and cooperation, with violations potentially leading to disqualification. Tournaments advance through qualification matches at local events, progressing to regional, state, national, and international levels to qualify for championships. For the 2025-2026 season, enhancements include a new online volunteer training platform, expanded NASA-sponsored online challenges with grants, and virtual skills options to broaden accessibility. The program fosters global participation, with over 17,000 teams from more than 50 countries engaging in STEM skills such as mechanical design, coding, and strategic planning. This international scope promotes cross-cultural collaboration while building foundational competencies in engineering and teamwork.

VEX V5 Robotics Competition Games

The VEX V5 Robotics Competition games began in the 2019-2020 season with "Tower Takeover," marking the introduction of the V5 platform's annual theme-based engineering challenges played on a 12-foot by 12-foot square field. Each season features a new game designed to test teams' abilities in robot design, strategy, and execution, with two alliances of two robots competing head-to-head in matches consisting of a 15-second autonomous period followed by a 1:45 driver-controlled period. These games emphasize innovation in mechanics such as scoring objects, field interactions, and endgame maneuvers, fostering skills in STEM disciplines. Subsequent seasons built on this foundation with evolving objectives. The 2022-2023 game, "Spin Up," involved scoring 60 discs into high and low goals for 5 and 1 points respectively, owning four perimeter rollers for 10 points each by applying alliance-colored tape, and covering field tiles in the final 10 seconds for 3 points per tile. In 2023-2024, "Over Under" centered on 60 triballs scored into goals for 5 points or placed in offensive zones for 2 points, with robots able to traverse a central barrier to access opponent goals, and endgame elevation on bars yielding 5 to 20 points per robot. The 2024-2025 season's "High Stakes" required scoring 48 rings on nine stakes—five on mobile goals and four wall-mounted—for 1 point per ring plus 3 for the top ring, positioning mobile goals in positive or negative corners to multiply scores, and climbing a central ladder at match end for 3 to 12 points. The current 2025-2026 game, "Push Back," released on May 11, 2025, challenges teams to score 88 blocks—18-sided foam polyhedrons—into four goals: two long goals (48.8 inches each) and two center goals (22.6 inches each with upper and lower sections). Each scored block earns 3 points if fully contacting the goal's interior surface without touching the floor or an alliance robot. Field elements include four 21.34-inch-tall loaders attached to the perimeter, each starting with six blocks for teams to clear and score, control zones around goals where majority block ownership grants 6 to 10 points, and alliance-specific park zones for endgame parking (8 points for one robot, 30 for two). An autonomous bonus of 10 points goes to the higher-scoring alliance after 15 seconds, with a new "Autonomous Win Point" awarded to both alliances for completing specific tasks like scoring seven blocks and clearing three from adjacent loaders. Key innovations in VEX V5 games include annual full field and game element kits, priced at approximately $600, which provide all necessary components for setup and play. An official Q&A system allows teams to submit rule clarifications, ensuring consistent interpretation across events. The 2025-2026 season features over 1,300 tournaments worldwide, enabling broad participation for more than 14,000 teams.

VEX IQ Robotics Competition Games

The VEX IQ Robotics Competition games series, launched in the 2012-2013 season, introduces middle school students to engineering challenges through collaborative robot-based tasks designed to build foundational STEM skills. The inaugural game, "Rings-n-Things," involved scoring balls into goals and rings while parking robots, setting a pattern of accessible objectives on a compact field. Subsequent early games, such as "Add it Up" (2013-2014), emphasized scoring varied balls into multiple goals and hanging robots for bonuses, progressing to more structured builds like "Highrise" (2014-2015), where teams scored cubes and constructed towers on bases. These competitions use a smaller 6 ft x 8 ft field compared to high school platforms, with simpler plastic components and rules tailored for ages 8-14 to reduce complexity and encourage rapid prototyping without advanced tools. The current 2025-2026 game, "Mix & Match," released on May 14, 2025, challenges alliances of two robots to collaborate in 60-second driver-controlled matches on the standard 6 ft x 8 ft field, focusing on matching colored tiles by building and stacking structures using pins and beams. Field elements include standoff goals, matching goals, and starting tiles with pins, where teams score by creating connected stacks (1 point per pin, 10 points per beam), color-pattern bonuses (5 points for two-color stacks, 15 for three-color), and placements in goals (10-point bonuses for matching or elevated positions). Maximum scoring per match can reach up to 50 points through optimal patterns and clearances, with kits providing turnkey field elements for easy setup in classrooms or events. Robot Skills Challenges include a 60-second autonomous coding period followed by driver control, allowing teams to demonstrate programming and manipulation separately. Recent games highlight evolving themes suited to younger participants, such as "Rapid Relay" (2024-2025), which featured relay-style passing and scoring of balls while clearing switches for bonuses, promoting speed and coordination. The prior season's "Full Volume" (2023-2024) centered on stacking uniform blocks into goals for height and pattern bonuses, emphasizing precision and stability. "Slapshot" (2022-2023) involved herding and placing discs into zones with contact bonuses, akin to a simplified hockey challenge. Earlier notable entries include "Squared Away" (2019-2020), where teams scored balls into and onto cubes moved to scoring zones, and "Rise Above" (2020-2021), focusing on stacking risers to complete rows in goals. Other key games like "Pitching In" (2021-2022) required clearing corrals and hanging after scoring balls, while "Next Level" (2018-2019) involved stacking hubs and removing bonuses for elevation points, illustrating a decade-plus progression toward creative, age-appropriate problem-solving. These games support over 8,500 registered teams across more than 50 countries, with hundreds of regional and national events annually fostering teamwork and iteration in a low-barrier environment. Kits integrate seamlessly with VEX IQ hardware, enabling quick assembly of fields and objects to accommodate school schedules and competitions.

VEX U and VEX AI Competitions

VEX U, launched in 2015, is designed for college and university students and adapts the standard VEX V5 Robotics Competition games with modifications to accommodate advanced engineering and research-oriented designs. For the 2025-2026 season, VEX U teams compete in the "Push Back" game, where alliances aim to score blocks, control zones, clear loaders, and park robots on a 12'x12' field, but with enhanced rules allowing greater fabrication freedom, including custom machined parts, 3D-printed components, and custom electronics within a restricted development environment. Unlike high school V5 rules, VEX U permits two robots per team—one fitting within a 24-inch cube and the other within a 15-inch cube—enabling larger, more complex prototypes focused on innovative research applications. Matches consist of a 30-second autonomous period followed by 1:30 minutes of driver-controlled play, emphasizing a blend of autonomy and human oversight to simulate real-world engineering challenges. The competition features over 300 teams participating in local, regional, and national events worldwide, culminating in a dedicated division at the VEX Robotics World Championship, where more than 300 university-level teams from various countries compete. This structure supports the development of research prototypes, as teams leverage advanced fabrication to push technological boundaries while adhering to cost-effective constraints that mirror industry practices. VEX AI, piloted in 2020 and fully implemented as a standalone competition since the 2023-2024 season, targets high school and university students with fully autonomous challenges that highlight artificial intelligence integration. For 2025-2026, the theme centers on AI-driven navigation and task execution in "Push Back," where two-robot teams perform object detection, path planning, and collaborative maneuvers without any human input. Scoring rewards AI accuracy, such as points for precise object detection of game pieces and goals using the VEX AI Vision System, with machine learning models trained in VEXcode for sensor fusion and decision-making. Each match lasts two minutes in a fully autonomous format, differing from VEX U's hybrid driver-controlled structure, and underscores innovation through unrestricted motor usage and custom hardware. The 2025 VEX AI Robotics Competition Championship, held June 6-7 in Houston, Texas, featured over 40 international teams, reflecting the program's growth to approximately 100 participating teams combined with VEX U for advanced levels that year. Both competitions prioritize cutting-edge innovation, with VEX U fostering prototype development through controlled autonomy and VEX AI advancing pure AI capabilities in robotics.

VEX Robotics World Championship

Structure and Divisions

The VEX Robotics World Championship serves as the culminating event for the global VEX ecosystem, convening over 20,000 students from more than 60 countries in a nine-day competition held annually from May 6 to 14, 2025. Organized by the Robotics Education & Competition Foundation (RECF), the championship is structured around four primary leagues—VEX V5 for high school participants, VEX IQ for middle school, VEX U for university-level teams, and VEX AI for advanced robotics challenges—each with dedicated schedules and venues within the host convention center. These leagues feature divisions that operate as self-contained mini-tournaments, including practice sessions, qualification matches, skills showcases, and finals, with top alliances advancing to overall league championships. Qualification for the championship follows a rigorous, multi-tiered pathway designed to select elite teams from thousands of global participants. Top performers earn invitations through regional, state, and national events, where awards such as the Excellence Award or Tournament Champions grant qualification spots—typically one to four per event depending on size and region. In total, around 1,400 teams compete in the VEX V5 division, approximately 800 in VEX IQ, with smaller cohorts of about 200-250 in VEX U and emerging numbers in VEX AI, reflecting the platforms' respective scales. Additional spots may be allocated via world skills rankings if regional quotas remain open, ensuring a merit-based selection across diverse geographies. Event logistics emphasize efficiency and accessibility for the large-scale gathering, utilizing multiple arenas equipped with raised competition fields, queuing tables, and technical support stations for matches and skills challenges. Dedicated judging panels assess teams on criteria including STEM research portfolios, engineering notebooks, and innovative designs during division-specific sessions. Awards span performance-based honors like Tournament Champions and Skills Champions, alongside categories recognizing sportsmanship, innovation, and inspiration, with division-level presentations feeding into culminating ceremonies. The entire event is live-streamed on the RobotEvents platform, enabling global audiences to follow matches, interviews, and awards in real time. Divisions within each league are segmented by age and experience levels, with separate brackets for middle and high school (VEX IQ and V5) versus collegiate and advanced (VEX U and AI) to foster age-appropriate competition. Teams from the same organization are distributed across divisions to promote fairness, and categories such as Excel (Excellence), Create, and Inspire guide evaluations for judged awards, highlighting technical prowess, creativity, and motivational impact.

Recent Events and Locations

The VEX Robotics World Championship has evolved through various hosting locations to accommodate its rapid growth. Initially held in California for its early years, including Northridge in 2008 and Anaheim from 2012 to 2014, the event shifted to Louisville, Kentucky, from 2015 to 2019 at the Kentucky Exposition Center, with the 2020 edition planned there but ultimately canceled due to the COVID-19 pandemic. In response to the global health crisis, the 2021 championship transitioned to a fully virtual format, allowing remote participation from thousands of teams worldwide. Beginning in 2022, the event moved to Dallas, Texas, at the Kay Bailey Hutchison Convention Center, where it has been hosted annually through 2025 to better support the expanding scale of attendance and logistics. The 2025 VEX Robotics World Championship, held from May 6 to 14 at the Kay Bailey Hutchison Convention Center in Dallas, marked a milestone with approximately 20,000 students from over 60 countries participating across divisions, reflecting the event's status as the world's largest robotics competition. Key highlights included strong performances by international teams, such as Team 81988B Artemis from Shanghai, China, claiming the VEX V5 Robot Skills World Championship title, and Team 80001B Double Play from Piedmont, Oklahoma, USA, securing the high school V5 alliance victory in intense finals matches. This edition underscored the program's global reach, with teams from regions like Asia and Europe competing alongside U.S. participants, and emphasized inclusivity through expanded scholarships and qualifiers that enabled diverse representation. Past events have showcased the championship's growth and resilience, from around 100 teams in 2008 to over 2,400 teams and thousands of robots by 2025, with notable disruptions like the 2021 virtual format fostering innovation in remote skills challenges. The 2024 Dallas event, featuring dramatic finals in the Over Under game, drew similar crowds and highlighted escalating competition intensity, with alliances pushing boundaries in scoring and strategy. This expansion from modest beginnings to a multi-week spectacle involving tens of thousands has driven the need for larger venues. Looking ahead, the Robotics Education & Competition Foundation announced in May 2025 that St. Louis, Missouri, will host the championship in 2026 and 2027 at the America's Center Convention Complex, selected for its capacity to handle over 25,000 attendees and projected economic impact of $16-17 million per event. This shift from Dallas aims to sustain growth while promoting accessibility, with continued focus on scholarships for underrepresented teams and streamlined global qualifiers to broaden participation.

Role in Education

Pedagogical Applications

VEX STEM Labs, introduced in 2020 as free digital resources, provide scaffolded lesson plans that align with key educational standards such as the Next Generation Science Standards (NGSS), International Society for Technology in Education (ISTE) standards, and Computer Science Teachers Association (CSTA) guidelines, targeting K-12 curricula in areas like engineering design processes and computational thinking. These units emphasize hands-on activities that integrate science, technology, engineering, and mathematics (STEM) concepts, allowing educators to incorporate robotics into existing lesson plans without requiring additional costs. VEX platforms are implemented in over 22,000 schools worldwide, as well as in after-school clubs and homeschool environments, supporting both formal and informal learning settings. Teacher professional development is facilitated through the Robotics Education & Competition Foundation (RECF) workshops and certifications, including the VEX Professional Development Plus program, with 2025 updates incorporating AI integration modules to enhance instructional capabilities. The platforms are tailored to specific educational levels: VEX 123 and VEX GO support early childhood play-based learning for pre-K through elementary students, fostering foundational skills in sequencing and problem-solving through simple, tactile interactions. VEX IQ and VEX V5 enable project-based assessments for elementary through high school, where students design, build, and program robots to address real-world challenges. VEX U and VEX AI serve university-level capstone courses, focusing on advanced engineering and autonomous systems. Supporting tools include the VEX Library, an online repository of build instructions, coding examples, and extension activities, alongside app-based coding environments like VEXcode, which offer block-based and text programming options accessible on tablets and computers. According to RECF surveys, 95% of VEX participants report increased engagement in STEM subjects, highlighting the platforms' role in motivating learners. Competitions serve as an optional extension to classroom activities, applying learned skills in team-based scenarios.

Research and Impact Studies

A 2012 study presented at the American Society for Engineering Education (ASEE) conference examined the impact of VEX Robotics Competition (VRC) participation on middle and high school students' interest in STEM fields. The survey of 341 students and 345 team leaders revealed significant increases in engineering excitement, with 90% of students expressing greater interest in learning about engineering and 92% wanting to learn more about robotics. Team leaders reported that 95% of participants showed heightened interest in robotics, and 87% developed stronger interest in computer programming, highlighting VRC's role in fostering early enthusiasm for technical disciplines. In 2019, the Robotics Education & Competition Foundation (RECF) supported a study that developed and validated an instrument to measure self-efficacy among VRC participants, linking involvement to higher confidence in problem-solving skills. The research, involving 344 middle and high school students, identified key constructs such as mechanical design, programming, and teaming, with mean self-efficacy scores of 4.19 for mechanical and design tasks and 3.37 for programming on a 5-point Likert scale. This evaluation demonstrated that VRC participation correlates with improved self-efficacy in problem-solving. No negative effects on student outcomes were noted in this or subsequent reviews of VRC programs. Broader impacts include enhanced teamwork and resilience, as evidenced by the 2019 RECF evaluation where 66% of team leaders identified teamwork as the primary benefit and 79% observed increased perseverance among participants. A RECF survey indicated that 95% of VRC participants report a boost in STEM interest, with correlations to pursuing STEM majors and careers; for instance, 87% of students in the 2012 ASEE study expressed interest in STEM jobs. VRC has also supported underrepresented groups through initiatives like Girl Powered, launched in 2016, which contributed to female participation growing from 23% to 37% by 2018, promoting diversity in STEM pathways. As of 2025, VEX continues to expand AI-focused educational resources, further integrating computational thinking and autonomy into STEM curricula.

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