2004, núm. 2
http://hdl.handle.net/2099/1547
2024-03-29T13:04:38ZSARTI News
http://hdl.handle.net/2099/1565
SARTI News
2006-05-18T16:52:34ZCombining Undergraduate Research and Industrial Practice: A successful Approach to University – Industry Relationships
http://hdl.handle.net/2099/1564
Combining Undergraduate Research and Industrial Practice: A successful Approach to University – Industry Relationships
2006-05-18T16:51:12ZDevelopment of a Stand-Alone Trigger System for Research Vessels using Embedded Real-Time Java
http://hdl.handle.net/2099/1563
Development of a Stand-Alone Trigger System for Research Vessels using Embedded Real-Time Java
2006-05-18T16:49:11ZDistributed Temperature Measurement System
http://hdl.handle.net/2099/1562
Distributed Temperature Measurement System
2006-05-18T16:47:35ZCAN bus Distributed Control and Monitoring System
http://hdl.handle.net/2099/1561
CAN bus Distributed Control and Monitoring System
The CAN bus (Controller Area Network) is widely used in different fields of industry and in particular in the car industry,Tthere are a variety of devices, which allow the
analysis of data travelling through the bus and generation of messages. The majority of these devices are cards with different formats (PCI, PCMCIA, PXI, etc…) that are finally inserted in a personal computer or rack where data analysis is performed. This article describes a CAN bus monitoring
system which allows the analysis and data generation from any PC connected to Ethernet network thanks to the use of a programmable hardware interface which collects the information from the CAN bus and transmits it to any machine requesting this data, using the Ethernet network under a TCP-IP connection. The data monitoring system is
extended with the use of OPC protocol (Ole for Process Control) as a tool for secure data distribution to the monitoring and registering systems based on OPC clients.
2006-05-18T16:45:48ZThe CAN bus (Controller Area Network) is widely used in different fields of industry and in particular in the car industry,Tthere are a variety of devices, which allow the
analysis of data travelling through the bus and generation of messages. The majority of these devices are cards with different formats (PCI, PCMCIA, PXI, etc…) that are finally inserted in a personal computer or rack where data analysis is performed. This article describes a CAN bus monitoring
system which allows the analysis and data generation from any PC connected to Ethernet network thanks to the use of a programmable hardware interface which collects the information from the CAN bus and transmits it to any machine requesting this data, using the Ethernet network under a TCP-IP connection. The data monitoring system is
extended with the use of OPC protocol (Ole for Process Control) as a tool for secure data distribution to the monitoring and registering systems based on OPC clients.Signal Processing in Ocean Bottom Seismographs for Refraction Seismology
http://hdl.handle.net/2099/1560
Signal Processing in Ocean Bottom Seismographs for Refraction Seismology
This communication presents some experimental results on wavelet techniques applied to seismic signal processing. These Techniques, which have been used to process seismic signals will now be applied to refraction seismology. The Ocean Bottom Seismometer, OBS, represents the achievement of a joint effort by teams from different scientific
and technological disciplines such as electronics, mechanics, acoustics, communications, information technology, marine
geophysics, etc. This easy- to- handle and sophisticated equipment not only allows useful active and passive seismicity
information to be recorded but also permits the recording of other wave fronts, with multiple applications to marine
environment research.
2006-05-18T16:42:29ZThis communication presents some experimental results on wavelet techniques applied to seismic signal processing. These Techniques, which have been used to process seismic signals will now be applied to refraction seismology. The Ocean Bottom Seismometer, OBS, represents the achievement of a joint effort by teams from different scientific
and technological disciplines such as electronics, mechanics, acoustics, communications, information technology, marine
geophysics, etc. This easy- to- handle and sophisticated equipment not only allows useful active and passive seismicity
information to be recorded but also permits the recording of other wave fronts, with multiple applications to marine
environment research.Control of Monolithic Spectrometer : Applications for environmental monitoring
http://hdl.handle.net/2099/1559
Control of Monolithic Spectrometer : Applications for environmental monitoring
2006-05-18T16:37:32ZUSB Connectivity for Microcontrollers
http://hdl.handle.net/2099/1558
USB Connectivity for Microcontrollers
2006-05-18T16:35:10ZWhat is Siconos?
http://hdl.handle.net/2099/1557
What is Siconos?
2006-05-18T12:50:58Z3D Passive Acoustic Tracking of Cetaceans
http://hdl.handle.net/2099/1556
3D Passive Acoustic Tracking of Cetaceans
2006-05-18T12:48:33Z