October 5th 2016
senseFly Corridor solution boosts efficiency of linear mapping projects
Today’s new combined hardware/software release makes assessing linear assets with UAS easier and less data-intensive than ever before
Airware and senseFly Sign Global Partnership Agreement to Bring Survey-Grade Aerial Mapping to the Enterprise
Airware to leverage senseFly’s eBee Plus fixed-wing drone as part of large-area data collection & analysis solutionsRead more
senseFly and MicaSense partner to offer ag professionals end-to-end drone & cloud processing solution
The agreement enables senseFly’s worldwide distributors to offer MicaSense Atlas, a cloud-based processing and analytics solution, alongside trusted drone platforms such as the long-range eBee SQRead more
senseFly named as finalist in Europe’s largest business award competition
senseFly named as finalist, and one of ten Ruban d’Honneur recipients, in the 2016/17 European Business Awards.Read more
AirMap and senseFly partner to advance safety for commercial drones
New partnership delivers robust airspace intelligence and unmanned traffic management solutions to senseFly’s largely autonomous commercial dronesRead more
senseFly receives first Swiss approval for anytime BVLOS operations
senseFly has become the first drone operator to be granted anytime Beyond Visual Line of Sight (BVLOS) authorisation in Switzerland.Read more
Agribotix™ partners with senseFly to offer agricultural clients a professional-grade, end-to-end drone & data processing solution
By combining the eBee SQ, senseFly’s advanced, long-range agricultural drone with Agribotix’s award-winning FarmLens™cloud processing platform, the companies have created an easy-to-use solution that is perfectly optimised for the early identification and troubleshooting of crop issuesRead more
First senseFly eBee imported into Indian market
senseFly customer SAKURA-GSR has become the first company to import a senseFly eBee mapping drone into India.Read more
senseFly selects Gap Wireless to expand Canadian inspection reach
senseFly has selected Gap Wireless, a leading distributor of products and services for the mobile broadband and wireless markets, as a Canadian distributor of its intelligent mapping and inspection drone, albris.Read more
Italian aviation authority designates eBee ‘harmless’ in major boost for commercial operators
senseFly’s lightweight eBee mapping drone platform has been verified as ‘harmless’ by the Italian Civil Aviation Authority (ENAC), enabling commercial eBee owners to operate much more easily.Read more
Light-weight multispectral UAV sensors and their capabilities for predicting grain yield and detecting plant disease
Researchers from FHNW University of Applied Sciences and Arts Northwestern Switzerland investigated the performance of light-weight multispectral sensors for micro UAVs and their application in agronomical research and agricultural practice. Their study employed a senseFly eBee drone and the cameras employed included Airinov’s multiSPEC 4C.
Generating highly accurate 3D data using a senseFly albris drone
In this exclusive project senseFly albris drones were used to conduct two photogrammetric land surveys of a construction site, using ground control points (GCPs). The results show that 3D point clouds produced with an albris can reach a global precision comparable to a typical total station survey and, as such, meet the typical accuracy requirements of construction projects.
eBee RTK Accuracy Assessment
This goal of this product whitepaper was to validate senseFly’s eBee RTK absolute accuracy claims (3 cm horizontal, 5 cm vertical) by completing a range of flights in different flight modes. The results validated senseFly’s claims. Even in less-than-ideal flight conditions, the eBee RTK was proven to still achieve reach a high standard of reliability, in line with an operator might expect from using a standard (non RTK) eBee alongside ground control points.
Application of Multispectral Sensors Carried on Unmanned Aerial Vehicle (UAV) to Trophic State Mapping of Small Reservoirs: A Case Study of Tain-Pu Reservoir in Kinmen, Taiwan
Author: Tung-Ching Su, Hung-Ta Chou. (Originally published: Remote Sens. 2015, 7, 10078-10097.)
In this Taiwanese study, RGB and NIR sensors carried on a senseFly drone were applied to the trophic state mapping of Tain-Pu reservoir. According to the authors, “The experimental results indicate that the MPP method can lead to better regression models than the average method”.
Putting stock in your survey
February 2014 | Geoconnexion International Magazine
How accurate is uav surveying for determining stockpile volumes? Bernhard draeyer and christoph strecha took up the challenge of comparing uav imagery with lidar scans to see how they matched up.
Swinglet CAM exploring the Medieval City of Merv, on the Silk Roads of Central Asia
Authors: Tim Williams, UCL Institute of Archaeology, London WC1H 0PY, United Kingdom
This paper presents an interesting use case of the swinglet CAM for an archaeological project where the use of satellite or photogrammetry airplanes was not satisfying. It demonstrates and discusses how to create effective digital terrain models (DTM) of intricate city surface landscapes with shallow mounds and depressions.
Photogrammetric Performance of an Ultralightweight Swinglet UAV
Authors: Vallet, J., Panissod, F., Strecha, C., and Tracol, M. Presented at: UAV-g 2011 - Unmanned Aerial Vehicle in Geomatics, Zürich, Switzerland
This paper is the first one to systematically compare results obtained with a swinglet CAM + Postflight Service powered by Pix4D to those obtained with a professional LIDAR carried onboard a manned helicopter. The main conclusion is that the accuracy of the Digital Terrain Model (DTM) based on swinglet CAM images taken at 150m height is in the range of 10-15cm.
The Accuracy of Automatic Photogrammetric Techniques on Ultra-light UAV Imagery
Authors: Küng, O., Strecha, C., Beyeler, A., Zufferey, J.-C., Floreano, D., and Fua, P. Presented at: UAV-g 2011 - Unmanned Aerial Vehicle in Geomatics, Zürich, Switzerland
This paper provides a description of the algorithms developed by Pix4D that are underlying the automatic 3D reconstruction of scenes using images taken by the swinglet CAM. It also shows how the accuracy of the resulting 2D and 3D maps varies in function of the altitude.
Small Unmanned Aerial Systems (sUAS) for Volume Estimation
Author: Adam Zylka
This Honors College Thesis examines how stereo imagery obtained from a small Unmanned Aerial System (sUAS), the senseFly eBee, can be usedto respond to natural disasters by estimating volumes - such as the amount of material needed to rebuild and repair damaged infrastructure - in a safe, inexpensive, and accurate manner, "on a par with terrestrial LiDAR sensor technology".
Our management team
Chief Executive Officer (Co-founder)
Jean-Christophe is responsible for the strategic direction and growth of the company. He is a bona fide pioneer in the field of small, bio-inspired, autonomous flying robots, holding a PhD in Mobile Robotics from the Swiss Federal Institute of Technology in Lausanne (EPFL) - where he has taught and managed numerous robotics projects - as well as an MSc in Micro Engineering, the thesis for which he completed at Carnegie Mellon University in the US. A Swiss national, Jean-Christophe has also studied entrepreneurship and management, and he is a licensed pilot with a passion for flying helicopters and aerobatics.
Chief Technical Officer (Co-founder)
Antoine is the head of senseFly’s R&D team, responsible for the technical development of senseFly’s drones and accessories. A Swiss national, he holds a PhD in Micro-Engineering from EPFL, Lausanne, and is an expert in aerial robotics and embedded software programming. Antoine boasts more than a decade’s experience in bringing unmanned aerial vehicles (UAVs) from concept to reality, both as a founding member of senseFly, and prior to that, as an independent software developer and research assistant at the EPFL. Like Jean-Christophe, Antoine is an avid aviator and holds a private pilot licence.
Head of Marketing and Sales (Co-founder)
As the person in charge of senseFly’s commercial activities, Andrea oversees the company’s marketing and sales teams. Born in Germany, Andrea is a qualified land surveyor and holds a degree in Geodesy Engineering from Beuth University of Applied Sciences in Berlin. She boasts several years of international product management experience having worked at Vectronix, a Swiss manufacturer of observation, orientation and distance measurement devices, as a Customer Support Engineer, Application Engineer and Program Manager, before heading to RUAG Aerospace, where she held the position of Sales and Program Manager.
Chief Of Operations (Co-founder)
As head of senseFly’s production and industrialisation departments, Cyril is responsible for transforming R&D prototypes into market-ready drones and accessories that meet Switzerland’s high quality standards. He holds a MSc in Physics from EPFL, Lausanne, and a Postgraduate Certificate in Flight Dynamics from Cranfield University. An active fixed-wing and rotary pilot, Cyril also holds a commercial pilot licence, plus he is also a graduate of the elite Empire Test Pilot School (ETPS) in Boscombe Down, UK, and he served as a helicopter Flight Test Engineer for the Swiss government before joining senseFly in 2013. A Swiss national, he brings extensive business development experience, having driven the infrared business of Vectronix for several years.
Chief Financial Officer
Roxanne joined senseFly in 2014 and as is responsible for the company’s financial strategy and organisation. A dynamic leader with several years of experience in progressive organisations across North America and EMEA, she previously held the roles of Finance Director at Snowide SA, VP of Finance and Administration at Playground Intrawest, and worked as an auditor for both HSBC Bank and the Canadian Government. Originally from Canada, Roxanne is a CPA, CMA, and holds a Bachelor in Business Administration from the University of Quebec.
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