The Forefront of Aerial Photography News on Cameras and Aerial Systems 1 History – Phase One: From 1993 to 2018 Phase One is an innovative international company headquartered in Copenhagen, Denmark With offices in New York, London, Cologne, Tokyo, Hong Kong, Shanghai and Tel Aviv. We are the world’s leader in open-platform, high-end, medium format camera systems and solutions for professional photographers. Phase One Industrial has Partners and Integrators worldwide. Russian market is done through our Partner NPK Fotonica in St. Petersburg 2 2 History – Phase One 3 3 History – Phase One 4 4 History – Phase One 5 5 © Antoine Rosé 6 6 Phase One Industrial In 2012, Phase One launched Phase One Industrial The new division targeted the aerial and industrial markets and leveraged its experience in producing digital backs into the aerial market. Phase One built a completely new airborne medium format camera from these experiences. 7 7 What is Medium Format? Mid Format is not fixed with a standard measurement, but the thumb rule would be a sensor with around 50mm cross track and around 40 mm along track. Along Track Cross Track 8 8 Phase One Industrial – Aerial Survey Products iXU-RS1900 iXU-RS1000, iXU1000 series Phase One 190MP Aerial System Phase One 50MP-100MP with DJI M600 9 What is a metric camera? Why? The Phase One aerial cameras are integrated, “medium format” camera systems that were designed from the ground up exclusively for aerial photography. True Metric Camera A true metric camera depends on structural integrity – ensuring consistency and rigidity of the camera and lens. Lens must be locked at a stable focus position to prevent vibration / sudden movement from affecting image quality and calibration data. 10 10 Phase One Industrial – Cameras iXU-RS1000 series Camera Type iXU-RS1000 Camera Specifications Lens type Rodenstock / Schneider-Kreuznach RS lenses: 32, 40, 50, 70, 90, 110, 150 Focal length F (mm) SK lenses: 28, 55, 80, 110, 150, 240 FOV (across line, deg) 86.5 (28mm) – 12.9 (240mm) FOV (along flight line, deg) 70.3 (28mm) – 9.7 (240mm) Aperture f/5.6 Exposure principle Leaf shutter Exposure (sec) 1/2000 to 1/125 Image capture rate 1 frame every 0.6 sec Light Sensitivity (ISO) 50-6400 Dynamic Range (db) >84 Spectral characteristics R,G,B Sensor Specifications CMOS pixel size (µm) 4.6 iXU-RS1000 series CMOS array (pix) 11,608 x 8,708 Analog-to-digital-conversion (bit) 14 Frame / Image Specifications Frame geometry Central projection Image size (pixel) 11,608 x 8,708 Image volume (MP) 100 Color RGB or NIR Typical image size (MB) 300 Image format Phase One RAW, TIFF, JPEG Operational Specifications Power Consumption < 10W Dimensions (depends on lens) 97.4 x 93 x <218 mm Weight (depends on lens) < 2 kg 11 Phase One 190MP Aerial System Specifications Camera Type iXU-RS1900 iXU-RS1900 4-band Camera Specifications Lenses type Rodenstock Number of lenses 2 3 Focal length (mm) 90 90 & 50 FOV (across / along flight line, deg) 45.7 / 33.0 Aperture f/5.6 Exposure principle Leaf shutter Exposure (sec) 1/2000 to 1/125 Image capture rate 1 frame every 0.6 sec Light Sensitivity (ISO) 50-6400 Dynamic Range (db) >84 Spectral characteristics R,G,B R,G,B, NIR Sensor Specifications CMOS pixel size (µm) 4.6 CMOS array (pix) 11,608 x 8,708 Analog-to-digital-conversion (bit) 14 Frame / Image Specifications Frame geometry Central projection Phase One 190MP Aerial System Image size (pixel) 16,470 x 11,570 Image volume (MP) 190 Color RGB RGB, NIR, CIR, 4-band Pansharpen ratio N/A 1:1.8 Typical image size (MB) 570 760 Image format Phase One RAW, TIFF, JPEG Complete Set iX Controller up to 6 separate USB3 ports Pilot monitor for navigation Yes Operator monitor for camera management Yes Gyro-stabilizer SOMAG DSM400 INS/GNSS Applanix, NovAtel, … iXU-RS1900 Operational Specifications Power Consumption 180 W Dimensions (L x W x H) 46x43x37 cm 12 Weight 30 kg Phase One iXU-RS1900 – Image Formation Principles iXU-RS1900 13 Phase One iXU-RS1900 vs iXU-RS1000 – productivity comparison Distance between flight lines 700 662 iXU-RS1900 600 iXU-RS1000 500 406 400 Total flight time (including turns) required for capturing 300 an area of 5km by 5km (25 km²) with 5cm ground resolution 200 Distance Distance between flight lines (m) 100 Flight time 50 47 iXU-RS1900 0 5 GSD (cm) 45 iXU-RS1000 40 34 iXU-RS1900 increases the distance between flight lines 35 30 on 63%. 25 Flight time Flight time (min) 20 15 10 5 0 5 GSD (cm) 14 WE SERVE THE WORLD’S LEADING BRANDS WITH TOP IMAGE QUALITY & PRODUCTIVITY 3D cities Forestry, agriculture, research Airborne mapping Infrastructure planning Engineering Power line monitoring Asset management Open pit mining 15 INTEGRATION & APPLICATIONS MAPPING 16 3D AERIAL MAPPING For Smart Cities KEY SUCCESS Integration of eight Phase One iXU-RS 1000 cameras, presents the leading edge of 3D aerial mapping and image acquisition RESULTS Acquiring large format NADIR and oblique aerial imagery in one single flight Efficient and cost effective solution with lower operational IGI – Urban Mapper cost Germany Outstanding image quality 17 Phase One Industrial Introducing the 4-Band Solution 2017 18 Picture Example RGB + NIR CIR 19 19 ENVIRONMENTAL – 4-Band Monitoring Dead Trees in Yosemite Park KEY SUCCESS High Resolution Aerial Imagery as a Tool for an Accurate Identification of Dead Trees RESULTS Reduce the number of flight lines needed to cover an area by 40% and still maintain the desired overlap and GSD The highest degree of accuracy and SkyIMD precision United States USA 20 21 INTEGRATION Lidar Systems KEY SUCCESS Integration of Phase One cameras into the Galaxy and Orion Lidar systems to ensure the highest quality of images RESULTS Enhanced applications offering, including: • Wide-area mapping • Powerline and transportation corridor Optech – Lidar • Natural Resource management • Engineering and infrastructure modeling Canada • Urban Mapping • Defense & Security 22 SMALL DETAILS The Big Picture KEY SUCCESS The uniquely designed aerodynamic camera platform (“pod”) hosting Phase One cameras that was approved for commercial aviation by the FAA proves it’s value. RESULTS Creation of a super accurate 1.7 gigapixel aerial image of Apple Campus II. This detailed top view was generated SkyIMD by stitching together 380 aerial images that were taken during a 30 minute United States flight at 2,000 ft. altitude and GSD of USA 3cm. 23 ACCURACY ANALYSIS Phase One Test Field 24 P H A S E O N E Aerial Test Field Test field characteristics WE – 2.0 km Area SN – 1.2 km Number of GCPs 53 GCPs RMSxy ± 0.8 cm GCPs RMSz ± 1.3 cm GCPs measurements procedure: 1. The geodetic observations were made according to static GPS survey procedure with one reference station. 2. The reference station was measured against Well-defined manmade features selected as GCPs CSAR permanent GPS station by two independent 1-hour long observation sessions. 3. Every GCP was measured by two independent half-hour long observation sessions. 25 AERIAL SURVEY FLIGHT i X U - RS1000 & R S 1900 Flight characteristics Flight altitude 2,500 feet GSD 4 cm Distance between 230 m strips Side overlap 49% Forward overlap 80% Frame size 450m x 340m Orthophoto angle 17° Cessna 172 Building lean 15% Ground speed 100 knot Strips SN 9 Strips WE 2 Number of images 202 26 ACCURACY ANALYSIS 15 G C P & 38 Check Points Block Accuracy on Check Points RMSxy = ± 2.7 cm (0.7 pix) RMSz = ± 4.4 cm (1.1 pix) 15 GCP 38 Check Points dX dY dZ dX dY dXY dZ (cm) (cm) (cm) (cm) (cm) (cm) (cm) MIN -0.8 -1.2 -0.2 -6.3 -6.2 8.8 -8.1 MAX 0.6 1.8 0.2 3.3 5.9 6.8 5.3 Mean 0.0 0.0 0.0 -0.3 0.1 0.3 -1.8 STDEV 0.4 0.6 0.1 1.6 2.1 2.7 4.0 RMS 0.4 0.6 0.1 1.7 2.1 2.7 4.4 27 Phase One Industrial – Drone Solution Phase One 50MP-100MP with DJI M600 28 29 Phase One Drone Solution – DJI M600 Pro Mapping Applications Phase One offers a professional, flexible and precision-driven solution that simplifies surveying and mapping processes, and provides professionals with unlimited and ultimate aerial data, while saving time and reducing costs and manpower. Our medium format metric cameras allows you to effortlessly execute mapping missions, capture high- resolution images and create 2D and 3D maps. It provides invaluable aerial data to industries like 3D Cities, land and resource management, agriculture, mining, forestry and environmental monitoring & research, and more. Power Line Monitoring Regular supply of electricity is an essential component in the life of the modern-day societies. To ensure uninterrupted distribution of electricity, an effective monitoring process is required. Power line inspection using UAV is taking off as the ultimate solution, as it can cover immense portions of surface in each flight and provide accurate visualization of the power line components as well as surrounding objects. Phase One UAV solution enables a faster and more accurate collection of visual information, and allows power companies to focus on fault finding, effective repairing and strategic constructions and maintenance planning, while minimizing the risks to surveying teams. STRICTLY PRIVATE & CONFIDENTIAL 2017 30 Phase One Drone Solution – DJI M600 Pro Wind Turbine Inspections Wind turbines, often located in remote areas, require millimeter-sized damage spotting in order to detect, react to and repair problems quickly and with minimal influence on the turbine performance or the environment.
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