Wingcopter
Wingcopter is a German aerospace company founded in 2017 that designs, manufactures, and operates electric vertical take-off and landing (eVTOL) drones primarily for beyond visual line of sight (BVLOS) delivery applications in healthcare, logistics, and surveying.[1] Headquartered in Weiterstadt, the company was established by Tom Plümmer, Jonathan Hesselbarth, and Ansgar Kadura to address global challenges in accessing vital supplies, such as medical goods, by reducing delivery times from days to hours or minutes for underserved populations.[1][2] Wingcopter's mission emphasizes human-centered aviation technology that is scalable, precise, and environmentally respectful, aiming to improve healthcare access for approximately 2 billion people worldwide lacking reliable transport infrastructure.[1] The company's flagship product, the Wingcopter 198, is an all-electric tilt-rotor drone featuring patented winglet technology for enhanced efficiency and maneuverability in adverse weather conditions.[3] It boasts a maximum range of 94 km, a cruising speed of 90 km/h, a payload capacity of up to 4.7 kg, and a maximum take-off weight of 25 kg, with redundant systems including dual batteries, eight motors, and advanced avionics for Level 4 autonomy.[3] This drone supports triple-drop delivery mechanisms (in development) and hot-swappable batteries to enable rapid turnaround times, making it suitable for time-sensitive missions.[3] In addition to manufacturing, Wingcopter provides end-to-end drone deployment services, including operations in challenging environments.[1] Wingcopter has achieved significant milestones, including a $22 million Series A funding round in 2021 to scale serial production and expand its headquarters, followed by additional investments such as from Nordic Secondary Fund in June 2025 to bolster technology leadership.[2][4] In 2025, the company launched long-range LiDAR surveying capabilities, partnered with Ansys to scale drone technology, advanced type certification processes in the US, Japan, and Brazil, and initiated regular medical deliveries in Mexico.[5][6][7][8] Notable projects include drone-based medical supply deliveries in Africa with Siemens Healthineers, blood transport trials in Japan with partners ITOCHU and ANA, and logistics partnerships in Mexico with Sincronía Logística, as well as entry into long-range LiDAR surveying capable of covering up to 2,560 acres in a single flight.[5][9][10][6] The company has also secured regulatory approvals, such as FAA Special Class Airworthiness Criteria for its U.S. variant in 2022, underscoring its commitment to safe, certified operations.[11]History
Founding and early development
Wingcopter GmbH was founded in 2017 in Darmstadt, Germany, by Tom Plümmer (CEO), Jonathan Hesselbarth (CTO), and Ansgar Kadura (CSO).[1][12] The company's origins trace back to Plümmer's experiences during a year of volunteering in Ghana, where he observed the inefficiencies of remote medical deliveries, including the death of a baby next door to his host family due to delayed access to care over impassable roads.[13] Motivated to address global challenges in transporting urgent medical supplies amid poor infrastructure, the founders aimed to develop drone technology for faster deliveries, reducing transport times from days to hours or minutes for the 2 billion people lacking adequate healthcare access.[1] The initial development centered on a patented tilt-rotor electric vertical takeoff and landing (eVTOL) drone design, combining the vertical lift of multicopters with the efficiency and speed of fixed-wing aircraft for stable operations in diverse conditions.[1] In 2018, this prototype achieved a Guinness World Record for the fastest remote-controlled tiltrotor aircraft, reaching an average speed of 240.06 km/h at the Goodwood Festival of Speed in the United Kingdom, which highlighted the team's early engineering innovations in aerodynamics and control systems.[14][15] Early testing progressed to advanced certifications, including Germany's first beyond-visual-line-of-sight (BVLOS) drone delivery flight in February 2020, where a Wingcopter drone covered 25 km over the densely populated Darmstadt area to transport samples, demonstrating reliable autonomous navigation and safety compliance.[16] That same year, Wingcopter was selected as a Technology Pioneer by the World Economic Forum for its contributions to healthcare supply chains, particularly in remote and crisis-affected regions.[17][18] The company initiated its first humanitarian pilot programs for medical supply transport in Vanuatu and Malawi around 2018–2020. In Vanuatu, in partnership with UNICEF, Wingcopter drones conducted on-demand deliveries of vaccines and medicines to remote islands, covering up to 40 km in under 30 minutes and bypassing challenging boat trips and hikes.[19] Similarly, early trials in Malawi targeted rural healthcare stockouts by enabling rapid transport of essential supplies over poor road networks, laying the groundwork for broader drone-based logistics.[20] These efforts marked Wingcopter's transition toward commercial models like the Wingcopter 178 for scalable applications.Funding and growth
In 2020, Wingcopter secured seed funding of several million euros from Corecam Capital Partners, which supported the scaling of prototypes and early operational development.[21][22] This initial capital infusion followed successful humanitarian delivery tests that demonstrated the potential of the company's drone technology, attracting investor attention.[23] The company raised $22 million in its Series A round in January 2021, led by Xplorer Capital and Futury Regio Growth Fund, with participation from Futury Ventures, Hessen Kapital III, and Corecam Capital Partners.[2][24] These funds enabled U.S. market expansion and the establishment of serial production facilities.[25] In June 2022, Wingcopter extended its Series A with an additional $42 million, tripling total equity raised to over $60 million and incorporating strategic investors such as REWE Group, Salvia, XAI Technologies, and ITOCHU, alongside existing backers.[26][27] This round facilitated accelerated production and the announcement of plans to deploy 12,000 drones across sub-Saharan Africa in partnership with Continental Drones over five years.[28] In May 2023, the European Investment Bank provided a €40 million quasi-equity investment to bolster European manufacturing capabilities and research and development efforts.[29] By 2025, Wingcopter had produced and deployed over 100 drones, reflecting steady growth in output.[30] The company secured additional funding in 2024 and 2025 from Nordic Secondary Fund and existing shareholders, including the European Investment Bank, pushing total capital raised beyond $119 million.[4][31] This latest infusion supported organizational expansion, including the appointment of Dr. Bernhard Klumpp as co-CEO and chief product officer in June 2025, and grew the team to approximately 120 employees.[32][33]Drone Models
Wingcopter 178
The Wingcopter 178 was introduced in 2017–2018 as Wingcopter's first heavy-lift delivery drone variant, specifically engineered for transporting single medical packages to remote and underserved regions.[24][34] Its core innovation lies in a patented tilt-rotor mechanism that enables vertical takeoff and landing akin to a multicopter, transitioning seamlessly to efficient fixed-wing cruising for extended reach.[2] Development progressed with prototype testing in 2018, including flight demonstrations that achieved a Guinness World Record for remote-controlled tilt-rotor speed, culminating in commercial readiness by 2020 through rigorous validation for operational deployment.[2][35] The design emphasized durability to withstand harsh environmental conditions, as demonstrated in operations in challenging terrains.[36][2] Initially focused on humanitarian aid, the Wingcopter 178's primary use cases evolved to include early commercial trials, such as supporting medical supply deliveries in partnership with organizations like UNICEF and GIZ.[2][37] Following a $22 million Series A funding round in 2021, production scaled up with the establishment of a dedicated manufacturing facility.[2] This foundational model paved the way for successors like the Wingcopter 198, which introduced multi-drop capabilities for enhanced logistical efficiency.[38]Wingcopter 198
The Wingcopter 198, launched in April 2021, is an all-electric vertical take-off and landing (eVTOL) fixed-wing drone designed as a successor to earlier models in Wingcopter's lineup. It incorporates a patented triple-drop mechanism that enables the delivery of up to three packages per flight—such as three small, two medium, or one large payload—thereby optimizing logistics efficiency by reducing the number of flights required for multi-stop routes.[39][40] This model builds on the tilt-rotor foundation of the Wingcopter 178 while introducing key enhancements for greater versatility and operational reliability. Improved modularity in its payload system allows for quick adaptation to varying package sizes and types without hardware modifications, supporting diverse delivery needs. Enhanced autonomy enables fully independent beyond-visual-line-of-sight (BVLOS) flights, with redundant sensors and software ensuring safe navigation over extended distances. Additionally, integration with advanced ground control systems, including the Wingcopter Cloud platform for mission planning and APIs for third-party connectivity, permits a single operator to manage fleets of up to 10 drones simultaneously from remote stations.[41][39][42] Development of the 198 was informed by operational feedback from deployments of the preceding Wingcopter 178, emphasizing refinements for scalability and regulatory compliance to drive broader commercial adoption. A primary goal was pursuing U.S. Federal Aviation Administration (FAA) certification, culminating in the issuance of special class airworthiness criteria in March 2022, which cleared the path for routine commercial operations in the United States.[11][43] The Wingcopter 198 is available in variants tailored to specific uses, including the standard configuration optimized for package delivery and a 2025 LiDAR-equipped version that supports aerial surveying missions, thus broadening its applications beyond logistics to include infrastructure inspection and mapping.[6][44] Notable deployment milestones include its integration into partnerships for real-world operations, such as the 2021 collaboration with Air Methods to launch a nationwide medical drone delivery network using the Wingcopter 198, and the 2025 launch of medical supply operations in Mexico through a partnership with Sincronía Logística, deploying fleets for remote area service with the Mexican Red Cross.[45][10][46]Applications and Projects
Humanitarian and medical deliveries
Wingcopter initiated humanitarian drone delivery pilots in Vanuatu starting in late 2018, in partnership with UNICEF and the Vanuatu Ministry of Health, to transport vaccines and medical supplies to remote islands inaccessible by road.[47] The program marked a world-first commercial drone vaccine delivery, with flights covering distances up to 40 kilometers in under 30 minutes, compared to several hours by four-wheel-drive vehicles over rough terrain.[19] These efforts focused on hard-to-reach communities on Pentecost Island, delivering essential vaccines during a nine-week period and demonstrating the potential to reduce delivery times from days to hours.[48] In Malawi, Wingcopter launched on-demand medical delivery operations from July 2019 to February 2020, collaborating with UNICEF and the Ministry of Health to serve 22 rural health centers with vaccines, blood samples, and other supplies.[49] The initiative addressed logistical challenges in remote areas, where traditional transport could take days, by completing flights up to 80 kilometers and transporting over 2,300 kilograms of medical goods across more than 130,000 flight kilometers.[20] By enabling bidirectional transport of samples and supplies, these pilots significantly shortened turnaround times for diagnostics, improving healthcare access in underserved rural districts. During the COVID-19 pandemic in 2020 and 2021, Wingcopter expanded its humanitarian efforts to transport test samples, personal protective equipment, and vaccines, particularly in Africa and Europe. In Malawi, the company initiated the "Drone + Data Aid" project to bolster healthcare supply chains amid the crisis, delivering urgent medical items to remote facilities.[50] In Europe, Wingcopter partnered with Thales, Skyports, and the UK's National Health Service (NHS) Scotland to conduct beyond-visual-line-of-sight trials for COVID-19 test sample deliveries between hospitals, proving the feasibility of rapid, contactless logistics.[51] These operations, utilizing Wingcopter 178 and 198 models for payloads up to 6 kilograms, helped mitigate supply disruptions in pandemic hotspots.[5] In 2022, Wingcopter announced a major initiative with Continental Drones to deploy up to 12,000 Wingcopter 198 drones across sub-Saharan Africa over five years, aiming to support healthcare logistics in 49 countries by enhancing access to medicines and creating local jobs. Initial deployments focused on maternal health supplies in countries including Uganda and Kenya, where drones facilitated faster delivery of essential items like blood products and diagnostics to rural clinics, addressing high maternal mortality rates in remote areas.[28] This network sought to integrate with existing health systems, prioritizing nonprofit aid scenarios to serve millions indirectly through improved supply chains.[52] By 2025, Wingcopter extended its humanitarian reach to Mexico through a partnership with Sincronía Logística and the Mexican Red Cross, deploying a fleet of Wingcopter 198 drones for on-demand medical logistics in rural communities. This initiative targets diagnostics, treatments, and emergency supplies, bypassing challenging terrain and infrastructure gaps to deliver to isolated areas within hours rather than days.[10] Overall, Wingcopter's humanitarian missions had completed over 1,000 flights by 2023, primarily in Africa, contributing to faster healthcare responses and indirect benefits for millions via efficient aid distribution.[53]Commercial partnerships and logistics
Wingcopter has transitioned from its initial focus on humanitarian applications to establishing scalable commercial logistics operations through strategic collaborations that enhance supply chain efficiency. In March 2020, Wingcopter partnered with UPS Flight Forward to jointly develop a versatile fleet of tiltrotor drones for last-mile package deliveries in the United States, aiming to expand beyond existing medical transport use cases into broader commercial applications.[54] That same year, Wingcopter collaborated with Merck on inter-site drone deliveries in Germany, successfully transporting pigment and lab samples over a 25-kilometer route from Gernsheim to Darmstadt in 17 minutes under beyond-visual-line-of-sight (BVLOS) conditions, demonstrating potential for time-sensitive industrial logistics.[55][56] In June 2022, Wingcopter secured a $42 million Series A extension that included strategic investment from ITOCHU Corporation, facilitating supply chain integrations and market expansion into Asia through ITOCHU's distribution and leasing of Wingcopter 198 drones.[57][58] In June 2023, Wingcopter signed a memorandum of understanding with Siemens Healthineers for integrated drone delivery of lab samples and diagnostics supplies in Africa, enabling two-way transport to bridge healthcare infrastructure gaps in remote industrial and emerging markets.[59][60] From 2023 to 2024, Wingcopter expanded its operations in Japan through its ongoing partnership with ANA Holdings, initially established in 2021 for remote island deliveries but advancing to include disaster relief logistics trials, such as a December 2024 test with ITOCHU and ANA for blood transport over 53 kilometers between Urasoe and Nago.[61][62] Additionally, Wingcopter's 2021 partnership with the Flying Labs network has supported global operator training and locally led logistics projects in over 30 countries, enhancing deployment capabilities for commercial drone services.[63][64] These partnerships have enabled Wingcopter's drones to integrate into e-commerce and supply chain workflows, such as grocery and pharmaceutical deliveries, where electric operations reduce carbon emissions by up to 94% compared to traditional road vehicles for short-haul routes in rural areas.[65][66]Expansion into surveying and new technologies
In 2025, Wingcopter expanded its operations beyond cargo delivery by introducing a specialized configuration of the Wingcopter 198 drone for long-range LiDAR surveying.[6] This adaptation integrates high-end LiDAR and RGB camera systems, supporting payloads up to 4.7 kg, to enable beyond-visual-line-of-sight (BVLOS) missions that collect data at up to 570 points per square meter with 10 mm accuracy and 5 mm precision.[67] In a single 42-minute flight, the system can scan up to 2,560 acres (10.3 square kilometers) or 37 miles (60 km) of linear infrastructure, positioning it as a cost-efficient and sustainable alternative to traditional manned surveys by reducing mobilization costs and improving data quality over existing solutions.[6][44] Complementing this diversification, Wingcopter has pursued advancements in sustainable propulsion through an ongoing partnership with ZAL GmbH, announced in March 2023.[68] The collaboration focuses on developing green hydrogen fuel cell systems to retrofit the Wingcopter 198, aiming to achieve extended flight endurance beyond current electric battery limitations to support long-duration operations while maintaining zero emissions, building on ZAL's prior demonstrations of over two hours with hydrogen-powered drones.[68][69] As of 2025, the project continues at ZAL's Fuel Cell Lab in Hamburg.[66] In June 2025, Wingcopter partnered with Ansys to leverage simulation software for optimizing drone designs, aiming to increase flight range by over 10% for medical supply deliveries.[70] This expansion into surveying and hydrogen technologies reflects Wingcopter's strategy to leverage its established eVTOL platform for broader applications, including environmental monitoring, agriculture, and infrastructure inspection, thereby diversifying revenue streams from delivery-focused operations.[6][30] Early deployments in 2025 include planned LiDAR pilots for terrain mapping and vegetation analysis through partners such as Synerjet in Brazil, with operations centered in Europe due to the company's base and regulatory approvals.[6] Potential U.S. applications are anticipated following ongoing FAA type certification efforts.[71] Looking ahead, the hydrogen initiative targets hybrid power integration to facilitate zero-emission flights in regulated airspace, aligning with Wingcopter's commitment to sustainable aviation.[68][72]Technology and Specifications
Design features
Wingcopter's drones employ a patented tilt-rotor electric vertical takeoff and landing (eVTOL) architecture, featuring eight rotors—four of which tilt to transition between vertical and horizontal flight modes. This design enables multirotor-like vertical operations for takeoff and landing in confined spaces, while fixed-wing configuration provides aerodynamic efficiency for extended range missions.[3][73] The system incorporates winglets to enhance stability and reduce drag, allowing reliable performance in adverse weather, including average winds of 15 m/s and gusts up to 20 m/s.[74] The payload compartment is modular and configurable, supporting capacities up to 4.7 kg in the Wingcopter 198, with automated winch-based release mechanisms for precise, contactless deliveries.[3] This setup facilitates the triple-drop capability (in development), enabling up to three separate packages to be deployed sequentially during a single flight via independent compartments. For temperature-sensitive cargo like medical supplies, the bay accommodates insulated containers to maintain required conditions during transit.[39][41] Avionics systems emphasize redundancy and autonomy, including dual flight controllers, six inertial measurement units (IMUs), dual barometers, and dual-antenna GNSS for robust navigation. AI-driven computer vision processes camera feeds for real-time obstacle detection and avoidance, supporting level 4 autonomous operations. These components integrate with Wingcopter's proprietary ground control station (GCS) software, which enables mission planning, real-time telemetry monitoring, and beyond visual line-of-sight (BVLOS) oversight.[3] The airframe utilizes a composite construction of carbon fiber and fiberglass, providing a lightweight yet durable structure with a maximum takeoff weight (MTOW) of approximately 25 kg for the Wingcopter 198. This material choice ensures resistance to environmental stressors, making the drones suitable for operations in tropical, rural, and coastal environments. Safety features align with regulatory standards, including the U.S. Federal Aviation Administration's (FAA) special class airworthiness criteria for the Wingcopter 198, which incorporate redundant power systems with eight motors and two batteries to mitigate single-point failures. Wingcopter has also initiated type certification processes in Japan as of 2024.[75][3][11][76]Performance and operational capabilities
The Wingcopter 178 drone measures 48 cm in height, 146 cm in length, and 178 cm in width, with an empty weight of 8.4 kg and a maximum takeoff weight of 18 kg (as of 2021 specifications).[74] It supports a maximum payload of 6 kg, enabling efficient transport of medical supplies or small logistics items.[74] The drone achieves a maximum speed of 150 km/h in fixed-wing mode, with a range of up to 120 km under optimal conditions without payload and using four batteries, and a flight time of up to 2 hours (as of 2021).[74] It operates at altitudes up to 5,000 m above mean sea level in multicopter mode.[74] The Wingcopter 198, a larger model, has dimensions of 65 cm in height, 198 cm in length, and 152 cm in width, with a maximum takeoff weight of 25 kg (current specifications as of 2024).[3] It accommodates a payload of up to 4.7 kg, including support for triple-drop mechanisms to enhance delivery efficiency during flights.[3] The drone reaches a cruising speed of 90 km/h (with a maximum of up to 150 km/h per initial specifications) and offers a maximum range of 94 km, operating at altitudes up to 5,000 m.[3][39] Its design prioritizes redundancy with eight motors and dual battery systems for sustained performance.[3] Both models feature beyond visual line of sight (BVLOS) capabilities through autonomous navigation systems equipped with dual GNSS for precise positioning, enabling operations in uncontrolled airspace with landing accuracy within 3 m.[74][3] They demonstrate wind resistance up to 15 m/s for takeoff and landing, and 20 m/s during flight, corresponding to Beaufort scale 6 or higher under gust conditions.[74] Power for the drones comes from lithium-polymer batteries, with the Wingcopter 178 using 22.2 V, 16 Ah units configurable in sets of two to four for modular energy needs.[74] The Wingcopter 198 employs hot-swappable smart batteries to minimize downtime.[3] Ongoing development includes hydrogen-powered prototypes based on the Wingcopter 198, with a successful maiden flight achieved in November 2023 aiming to extend range beyond current battery limits through emission-free propulsion.[77] Operational limitations include reduced effective payload in winds exceeding 15 m/s due to stability demands, as well as regulatory requirements for BVLOS flights in urban areas, which typically necessitate special waivers from aviation authorities like the FAA.[11][38]| Model | Dimensions (H x L x W, cm) | Max Payload (kg) | Cruising Speed (km/h) | Max Range (km) | Max Flight Time (hours) | Wind Resistance (m/s, flight) |
|---|---|---|---|---|---|---|
| Wingcopter 178 | 48 x 146 x 178 | 6 (2021) | 150 (max, 2021) | 120 (no payload, 2021) | 2 (2021) | 20 |
| Wingcopter 198 | 65 x 198 x 152 | 4.7 (2024) | 90 | 94 (2024) | ~1 (est.) | 20 |