The Gordon Gunter supports a large suite of sensors for meteorological and oceanographic data acquisition. This sensor suite is supported by 2 high-powered Dell PowerEdge computers. A well developed ethernet computer network integrates nearly all of the shipboard computers, including several 2000 Gateway Servers and Workstations along with other specialized computer platforms. The up-to-date shipboard computers and software are used for everything from sensor acquisition and data analysis to administration and payroll. Intranet services support many network applications. The two basic categories of shipboard computers are scientific and administrative.
Nearly all of the ship's sensors are integrated into the Scientific Computing System (SCS), which allows for centralized data acquisition and logging from numerous sensors with different sampling rates. One central data set of all sensors is logged continuously, and user-specified subsets of sensor data and independent sampling rates may also be logged simultaneoulsly. All data are time stamped from the ship's high-precision Symmetricom NTS 2000 Time Server. UTC clock and GPS navigation parameters can be easily included within any data set. SCS data can be accessed with feature-rich software from workstations throughout the ship-wide network. Details for individual shipboard sensors and systems are provided below. Temporary installation of additional mission-specific sensors and systems within SCS is also possible.
More information about specific ship equipment can be found on the Communications Equipment and Navigation Equipment pages.
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BATHYMETRIC
- Echo Sounder - Shallow Water
- Simrad EQ-50 Fish Finding Echo Sounder (200 kHz and 50 kHz)
- Echo sounder - ScientificEcho sounder - Scientific
- Simrad EK-60 Scientific Sounder (18 kHz, 38 kHz, 120 kHz, and 200 kHz)
COMPUTERS, NETWORK AND SOFTWARE
- Computers
The central components of the Gordon Gunter's computer system are two (primary and backup) Dell PowerEdge 2650 Servers. The systems are identical in set-up and configuration so that in the event of a failure of the primary system, the backup system can resume scientific data acquisition with minimal data loss. The system operates in a Microsoft 2000 Server windows environment.
The primary node is used for data acquistion from several real time and derived scientific sensors. Each Dell server has 4 internal 9 GByte drives operating in RAID 5, a CD-ROM drive, a CD-RW drive, and a 30 gb tape drive. The primary function of this system is to run the Scientific Computer System (SCS) software.
In addition to the Dell servers, computer workstations are located in the Chem Lab (1), Dataplot (2), and on the Bridge (1). If needed, Network workstations can be relocated to better meet scientific requirements. The Dell servers are connected to all other nodes using a 100BaseT network throughout the vessel. The nodes include the two Dell PowerEdge computers, network workstations, network Postscript (Laser and Deskjet) printers, and numerous Windows workstation and Windows XP personal computers. This networking makes data transfer throughout the vessel simple and efficient. TCP/IP and Microsoft NetBEUI are the preferred protocols for the PC's.
The primary function of the computer systems is to fulfill the data requirements as outlined in the project instructions; however, limited access is available to personnel for projects not directly related to the mission.
A variety of storage media are available on the public PC's including Iomega Zip's and DAT tapes.
- Network
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Gunter's network is a 100/1000BaseT network capable of supporting 256 nodes. Two domain controllers provide redundant operation and backup for the network. The network is connected to the internet in port by a cable modem connection and under way through VSAT.
In addition to the domain controllers there is an SCS Data Acquisition running SCS 4.5.1. Data is collected, processed, archived and distributed to client workstations.
Computers
Dedicated science work stations are located throughout the dry lab area. Experiment packages and other computers can be connected to the system as needed to support mission requirements.
Software
All of the computers have been loaded with MS Office 2007. Specific machines have additional MS Office components such as Access. Stations can be loaded on request with specific software.
Proprietary Software
Sippican XBT is loaded on one PC to support XBT operation
Teledyne RDI VMDAS is loaded on the ADCP Computer to support collection of current data.
- Developed Software
- Scientific Computer System (SCS) software
- Commercial Software Packages
- Microsoft Visual Studio
- Microsoft Office 2007
- Nobeltec VNS
- Microsoft Visual Studio
- System Utilities
- Microsoft Visual Studio Professional 6.0
- NetBeui
- TCP/IP
- Microsoft Ethernet
- Data Acquisition System
The Scientific Computer System (SCS) software was developed at NOAA Headquarters specifically for the NOAA fleet. SCS is a data acquisition and processing system designed for oceanographic and fisheries applications. The C++ based software package is run through point and click menu bars. The SCS package utilizes Graphical User Interface (GUI) technology in the form of NT-Window time series graphs and directly calls ArcView graphing capabilities.
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SCS is networked throughout the ship and is capable of sending data displays to remote stations (SCS Client) nearly anywhere on the ship. In addition, ASCII data strings can be sent via RS-232 cable or over the ethernet. Data from every sensor logging to SCS can be sent to any available port/node on the network. The SCS workstations can provide time series graphs of all acquired data to monitor any changes. Several variables can be plotted against each other in real time X-Y plots. Data can be output in a wide variety of formats. Data output formats include:
- Raw data files in binary form
- Postprocessed compressed or merged data sets
- ASCII data for easy transfer to PC environment
METEOROLOGICAL
- Barometer, Wind speed & Direction, and Thermometers:
- Installed, calibrated and connected to SCS.
- The installed instruments are R M Young Anemometers, a Barometer and a Temperature / Relative Humidity Sensor.
MISCELLANEOUS
- Speed Log
- Sperry SRD-421A Doppler Speed Log.
- Winch System
Measurement Technology winch instrumentation displays for both the traction and hydrographic winch systems. These displays will display wire out in meters, feed rate in meters per minute and wire tension in pounds. These readings are also output to SCS for archival and are available for scientific use.
OCEANOGRAPHIC
- Acoustic Doppler Current Profiler (ADCP)
The RD Instruments (RDI), Model VM-150-18HP, 153.6 KHz narrow band acoustic doppler current profiler provides vertical profiles of ocean current, speed and directon at depths up to 380 m. The RDI software, version 2.48 running on an associated 386 computer displays the real time data. Data is recorded on an external 100 Mb zip drive and available for scientific use.
- Autosalinometer
Two Guildline model 8400B auto salinometers for precision salinity calculation in a temperature controlled airlock style entry room. The room also is equipped with a deep sink.
- CTD
Seabird Electronics (SBE) Model 911 Plus CTD system in a 12-position rosette frame with a General Oceanics submersible array firing assembly. The SBE 911 Plus underwater assembly has a depth capacity of 6800 meters and a dual conductivity/temperature sensor pair. The SBE 911 Plus deck unit is connected to a VHS VCR for raw data recording and a networked computer with the capability of printing color plots. The computer is running SBE data collection software. The Gordon Gunter has a spare SBE 911 Plus underwater unit with a single conductivity/temperature pair. The CTD system is capable of interfacing through either of the two ship's hydrographic winches. There are two 12 KHz pingers available for use with this system. Also available is a SBE 19 Seacat Profiler.
- Fluorometer
- Fluorometer (Turner Design Model 10AU)
- NOTE: The Fluorometer is configured as a flow through unit and provides qualitative data not quatititative.
- Thermosalinograph (TSG)
Seabird Electronics SBE-21 thermosalinograph plumbed in at the bow is capable of measuring the conductivity and temperature of the water from either 2 meters below the ship's waterline or from 5.6 meters below the water line. This data is recorded on SCS and is available for scientific use.
- Expendable Bathythermograph (XBT)
Sippican MK-12 XBT system with a portable launcher that is available for scientific use. The user must supply XBT probes.
