At the ESRI User Conference in San Diego, Ricoh America is enhancing their 500SE GPS-equipped digital camera with a new SE-2 GPS module line.
The new modules, SE-2c and SE-2g, will allow for additional GPS features including a 3-axis compass for directional information, faster GPS fix times and significant power saving capabilities.
A firmware update is also released for upgrading attributes of field data through a data dictionary or barcode scanning capabilities. The update will also allow images to be imprinted with GPS position, azimuth and satellite time as they are captured.
To provide the best solution for GIS workflows that require quality images, Ricoh has announced the new SE-2 GPS module line for the 500SE to provide superior GPS reception, capabilities and accuracy. The SE-2 modules, designed by EKA Technologies, Inc, incorporates state-of-the-are GPS components into a small, power-efficient, and ruggedized housing that attaches to the side of the 500SE, providing an all-in-one geo-imaging solution.
"The SE-2 represents Ricoh's commitment to provide cutting-edge technology to its customers," said Jeff Lengyel, national manager for Ricoh's Camera Division. 'Unlike other GPS cameras and imaging devices with built-in GPS, the 500SE was designed with a modular approach to ensure the camera's capabilities follows the rapid technology curve in the GPS industry.'
The new modules are available in two versions. The SE-2g provides GPS capability while the SE-2c offers GPS and a 3-axis compass for direction (azimuth) information.
Key advantages of the SE-2 modules are its small form-factor, significant power saving capabilities and faster GPS fix times, due to it new helix antenna. The SE-2c and SE-2g are also less expensive then previous modules with a MSRP of $169.00 and $399.00 respectively.
To further enhance the camera's data-collection capabilities, Ricoh has also announced a new firmware release for the 500SE that allows it to collect up to ten attributes of field data via an easy-to-use on-board data dictionary or by utilizing the camera's barcode scanning capabilities. Additionally, an unlimited number of data dictionaries may be stored on the camera to provide a virtually unlimited amount of data to embed into images as they are captured. This image 'meta-data' becomes attribute data in GIS mapping applications. The new firmware also allows up to three attributes as well as GPS position, azimuth and UTC (satellite time) to be imprinted directly onto images as they are captured
