A retrofit network transaction data logger for SCADA control systems

Pavurapu, Kalyan

07 August 2010

SCADA (Supervisory Control and Data Acquisition) control systems are widely used to control critical processes in various economically and safety critical commercial industries. SCADA control systems are often vulnerable to attacks due to previous industry reliance on security by obscurity to protect control systems. There is a need for an architecture which can log the communications traffic in the SCADA networks. In this work a forensic network traffic data logger retrofit solution for MODBUS and DNP3 network appliances is presented. The data logger uses a bump-in-wire configuration to capture the network transactions, timestamp, cryptographically sign, encrypt and store the network transactions. The data logger is developed to run on embedded and virtual machine platforms. Thus, a retrofit forensic network traffic data logger logs the network traffic in a SCADA control system efficiently without affecting the normal functionality of the control system and the logger data supports post incident forensics analysis.

scada

data logger

control systems

A logging service as a universal subscriber

Sharp, Jayson

January 1900

Master of Science / Department of Computing and Information Sciences / Eugene Vasserman / As medical systems expand to allow for the increase the number of devices, new ways to protect patient safety have be developed. The Integrated Clinical Environment, ICE, standard sets up a set of standards that define what an integrated hospital system is. Within the specification is a direct call for a forensic logger that can be used to review patient and system data. The MDCF is one implementation of the ICE standard, but it lacked a key component the ICE standard requires, a logger. Many loggers exist in industry, with varying rates of success and usefulness. A medically sound logger has to be able to completely retell exactly what happened during an event, including patient, device, and system information, so that the right medical professional can provide the best care. Several loggers have been built for MDCF, but few were practical due to the invasiveness of the service. A universal subscriber, a service that is able to connect to all publishing data streams, logging service was built for the MDCF which has the ability to record all information that passes over the MDCF messaging service. This implementation was then stress tested with varying numbers of devices and amounts of data. A reviewing tool was also built that allows for replay of device data that is similar to the original device UI. Future work will include looking into storing system information such as state changes within MDCF and system health. There is also a push to further integrate the forensic reviewer into the core MDCF UI.

Medical Device Coordination Framework

Universal subscriber

Logger

Computer Science (0984)

Sending and Receiving Data between Mobile and Data Logger

Abbaraju, Nanda

January 2008

No description available.

Data Logger

Bluetooth

MIDlet

J2ME

RFCOMM

Electrical engineering

Elektroteknik

Experimental and Finite Element Analysis of Wind Induced Displacement of a Dual Axis Photovoltaic Solar Trackers

Adeleke, Bukola

January 2016

Photovoltaic (PV) solar panels and trackers represent one of the most common renewable energy technology which converts sunlight radiation into electrical energy. The solar trackers specifically are more complex structures because they involve mechanical devices, a supporting slender structure, and photovoltaic modules mounted and positioned on top of the supporting structure. Solar trackers are mounted on mobile supports or racks, in order to enable the rotation and tilt of the PV which thus maintains their optimum exposure to the incident sunlight. Solar trackers support structures should be designed for wind resistance during the operation and at stow position for its life span and this became a concern considering the new tendency of installing the solar trackers on the rooftop of low-rise or medium-rise buildings. The current research focused on performing site measurements of the wind-induced displacement for a dual-axis solar tracking system installed on the roof of the Mann Parking building of the University of Ottawa, for different azimuth, elevations. The supporting structure of the solar tracker was instrumented with 16 strain gauges and the strains developed in the metal truss members were measured during the months February 2015 and March 2015. The tracker was rotated and tilted at different angles through the duration of the experiment and the strains observed on each structural element were recorded. In order to estimate deflections of the supporting structure for wind speeds higher than the ones measured, a finite element (FE) model of the solar tracker was created and static analysis was performed for different inclinations using the SAP 2000 structural software. The experimental results were in agreement with the FE simulation results as the stresses obtained ranged between 1.02 × 107 Pa and 7.88 × 107 Pa. Lower attack angles between 45° and 60° were found to have significant effect on the elements of the solar tracker irrespective of the wind load magnitude. Operational attack angles between 65° and 75° were found to be safer positions as obtained displacements and stress analysis result showed that the supporting structure of the solar tracker was stable for wind speeds between 0 m/s and 33m/s in Ottawa region

Photovoltaic Solar trackers

Multiplexer

Data logger

Wind load

Displacement and Stress

Signálový a datový logger / Signal and data logger

Borsányi, Tamás

January 2014

The goal of this project is to design a signal and data logger, which captures analog and digital signals with very long record time. The device supports multichannel complex triggering, a real-time oscilloscope-like mode and an offline mode for analyzing of previously sampled data. This project contains detailed analysis of the topic, description of hardware and software solutions and used methods. The thesis also contains verification tests and measurements. This device will be mainly used for hardware debugging of microprocessor based applications.

Modelling and Evaluation of a Bluetooth Data Logger in the Presence of Interference Sources

Karlsson, Magnus

January 2005

Industrial Development Centre (IUC) in Olofström inc. has constructed a measurement value logger which can sample values from eight channels, buffer them and then send them wireless with the Bluetooth technology to e.g. a computer.</p> In this thesis the data transfer rate, i.e. the number of values per second has been studied for different logger settings and when there are interferences in the Bluetooth traffic. How Bluetooth is affected by interferences has been studied with a number of experiments performed at IUC's RF-damped Faraday's cage. The thesis provides a model for this Bluetooth logger. The model extends the existing simulation system NS2-UCBT with a 'logger protocol'. NS2-UCBT was also extended to better support modeling of losses (due to Bluetooth channel impairments) and for the model of these losses to be based on experiments. The resulting simulation program allows developers to construct and evaluate a measurement system utilizing such a Bluetooth logger. Using the simulation model, the data rate measured in samples per second was examined for the logger. The simulations shows that optimizing the logger's configuration will improve that data rate considerable. This report contains: a summary of the problem and earlier research, an explanation of the simulation system and the simulation program, comparisons between simulations and experiments, some conclusions, and proposes future work in this area. / Industriellt Utvecklings Centrum (IUC) i Olofström AB har tagit fram en mätvärdeslogger som kan sampla värden från åtta kanaler, mellanlagra dem och skicka dem till exv. en dator trådlöst med Bluetooth teknologin. I det här examensarbetet har överföringshastigheten, dvs antal mätvärden per sekund studerats för olika inställningar på loggern och då det förekommer störningar i Bluetooth trafiken. Hur Bluetooth påverkas av störningar har undersökts genom en rad experiment i IUC's RF-dämpade skärmlabb. Arbetet har lett fram till en modell för mätvärdesloggern och ett simuleringsprogram som gör det möjligt för utvecklare att konstruera och utvärdera sina mätsystem med mätvärdes logger. Modellen använder det befintliga NS2-UCBT simuleringssystemet utvidgat med ett 'logger protokoll', mer utvecklad förlusthantering än NS2-UCBT i grundutförandet erbjuder och flexibel förlusthantering baserad på experiment. Med simuleringsmodellen undersöktes loggerns datahastighet i sampel per sekund. Simuleringarna visa att genom att förbättra loggerns konfiguration kan avsevärt högre datahastighet nås. Den här rapporten innehåller: en sammanfattning av problemställningen och tidigare forskning, en beskrivning av simulationssystemet och simulationsprogrammet, jämförelser mellan simuleringar och experiment, en del slutsatser, och förslag på framtida arbete i området.

Bluetooth

simulations

NS2-UCBT

logger

buffer and interferences

Communication Systems

Kommunikationssystem

Real-Time Water Depth Logger Data as Input to PCSWMM to Estimate Tree Filter Performance

Ertezaei, Bahareh

January 2017

No description available.

Environmental Engineering

A Quality Assurance of NKT’s Temperature Measuring : Evaluation and Uncertainty Analysis of the Temperature Measuring Chain on High Voltage Cables

Olausson, Hannes

January 2022

An overall increase of interest and need for high voltage cable have been acknowledge overthe last years. This is mainly due to the effect of the rapid expansion and transition fromfossil-energy sources to a future with non fossil-energy. Good and capable high voltagecables are needed, whether it is to connect countries to a large power grid or transfer a largemagnitude of energy from offshore wind farms. One of the world leading companies thatsupply and develop these types of cable is NKT. During production, several tests are carriedout to ensure that the cables will withstand the stresses they will later be subjected to oncethey are in operation. Majority of these tests focus on evaluating the thermal stress insidethe cables and the importance of measuring the correct temperature becomes crucial. Thisstudy aims to analyze and evaluate the uncertainty within the temperature measurementchain of NKT’s high voltage cables. The study uses the laws of thermodynamics to clarifythe various effects and consequences that can occur when temperature sensors are incorrectly installed, in this study type-T thermocouples. The thermocouples form the first partof the whole temperature chain and its installation will prove to have a significant effect onthe result. The thermocouples were mounted on a HVAC cable that underwent 4, 24 hoursheating cycles. There were 33 thermocouples and they were divided between two differenttypes of logger systems. The data collected during the cycles is used to compare the twosystems. In addition to the experimental evaluation of the two systems, a theoretical evaluation and analysis was also carried out. The results between the two methods showed somedifference but in the end, it was chosen to consider the two systems as equivalent. The experimental method resulted in an uncertainty of the temperature chain regardless of thelogger used to ± 1.6◦C with a conductor temperature of 70◦C, while the theoretical value forthe two logger-system was calculated to ± 1.5◦C up to ± 1.8◦C depending on which calculation method that was used. Unlike the experimental method, the calculations were based ona conductor temperature of 100◦C, this to account for the contributions that were difficultto evaluate.

Temperature

Uncertainty

Logger system

Thermocouple

Energy Engineering

Energiteknik

Sincronização fótica e não fótica dos ritmos circadianos em roedores subterrâneos (Ctenomys aff. knighti) e roedores modelo de laboratório (Mus musculus) / Photic and non-photic synchronization of the circadian rhythms in subterranean rodents (Ctenomys aff. knighti) and laboratory model rodents (Mus musculus)

Flôres, Danilo Eugênio de França Laurindo

03 October 2016

Nosso grupo de pesquisa estuda ritmos circadianos em um roedor subterrâneo do gênero Ctenomys, o tuco-tuco. Nesta tese, apresentarei dados sobre sincronização fótica e não-fótica dos ritmos circadianos em tuco-tucos, e sobre sincronização não-fótica em camundongos. Investigamos a sincronização fótica em tuco-tucos por meio de uma abordagem conjunta de campo e laboratório. Inicialmente medimos o ciclo claro/escuro natural percebido por animais mantidos em áreas cercadas em campo, utilizando aparelhos light loggers que registraram continuamente o padrão temporal diário da exposição à luz. Em seguida, foi aplicado um modelo desse padrão de exposição à luz em laboratório, para testar o seu potencial como um sincronizador fótico dos ritmos circadianos dos tuco-tucos. O modelo consistiu em pulsos de luz aplicados uma vez por dia em diferentes momentos aleatórios. Apesar de carregar o mínimo de informação temporal, esse regime luminoso foi um sincronizador eficiente em muitos casos, tal como previsto anteriormente a partir de simulações computacionais de um oscilador matemático. Os resultados revelam que a sincronização de osciladores circadianos é ainda mais robusta do que se imaginava. Nosso segundo conjunto de experimentos avaliou a sincronização não-fótica em tuco-tucos, os quais são herbívoros, expostos a ciclos diários de disponibilidade de alimentos. Semelhante a outras espécies de roedores, tuco-tucos desenvolveram uma atividade antecipatória ao alimento, expressa diariamente antes da alimentação. Houve, no entanto, grande variabilidade inter-individual na expressão da atividade antecipatória, provavelmente relacionada com diferenças nas respostas metabólicas à restrição temporal do alimento. O trabalho final foi uma colaboração com o Dr. Shin Yamazaki, sobre sincronização não-fótica em camundongos do tipo selvagem e camundongos mutantes com ablação genética do relógio circadiano. Ciclos diários de alimentos palatáveis e de corrida em roda induziram ritmicidade autossustentada em camundongos mutantes arrítmicos, que não expressavam os genes Period, componentes importantes da maquinaria molecular que gera os ritmos circadianos nas células. Estes resultados sugerem a existência de novos osciladores circadianos que respondem a sinais diários de recompensa. Enquanto espécies modelo de laboratório, tais como o camundongo, podem trazer informações valiosas sobre os mecanismos fisiológicos, as espécies selvagens como o tuco-tuco podem nos dar pistas sobre o significado ecológico dos fenômenos circadianos / Our research group studies circadian rhythms in a subterranean rodent from the genus Ctenomys, the tuco-tuco. In this thesis, I will present data on photic and non-photic synchronization of circadian rhythms in tuco-tucos, as well as a study on non-photic synchronization in the laboratory mouse. Natural photic synchronization in tuco-tucos was verified with field and laboratory approaches. We initially measured the natural light/dark cycle experienced by tuco-tucos in semi natural field enclosures, by means of automatic light logger devices that continuously recorded the daily temporal pattern of light exposure. Next, a model of this light exposure pattern was applied to tuco-tucos in the laboratory, to test its potential as a photic synchronizer of the circadian rhythms. The model consisted of single light pulses applied once a day at varying random times. Despite the minimal timing information, this light regimen was a successful synchronizer in many instances, as predicted from previous computer simulations of a mathematical oscillator. These results revealed that the synchronization of circadian oscillators is even more robust than previously thought. Our second set of experiments evaluated the non-photic synchronization in the herbivorous tuco-tucos, by exposing animals to daily cycles of food availability. Similar to other rodent species, tuco-tucos in this protocol developed a circadian food anticipatory activity (FAA) right before the daily feeding time. However, there was great interindividual variability in FAA expression, likely related to differences in the metabolic responses to time-restricted feeding. The final work was a collaboration with Dr. Shin Yamazaki from the University of Texas Southwestern Medical Center, regarding non-photic synchronization in wildtype and mutant mice with genetic disruption of the circadian clock. Daily cycles of palatable food and wheel running induced self-sustaining rhythmicity in arrhythmic mutant mice, which do not express the Period genes, key components of the molecular machinery responsible for circadian rhythm generation within the cells. These results suggest the existence of novel circadian oscillators responsive to daily rewarding signals. While model laboratory species such as the mouse can bring valuable information on physiological mechanisms, wild species like the tuco-tuco can give us insights into the ecological meaning of circadian phenomena

Arrastamento

Campo e laboratório

Entrainment

Field and laboratory

Light logger

Light logger

Period gene

Recompensa,Gene Period

Restrição alimentar

Restricted feeding

Reward

Sincronização fótica e não fótica dos ritmos circadianos em roedores subterrâneos (Ctenomys aff. knighti) e roedores modelo de laboratório (Mus musculus) / Photic and non-photic synchronization of the circadian rhythms in subterranean rodents (Ctenomys aff. knighti) and laboratory model rodents (Mus musculus)

Danilo Eugênio de França Laurindo Flôres

03 October 2016

Nosso grupo de pesquisa estuda ritmos circadianos em um roedor subterrâneo do gênero Ctenomys, o tuco-tuco. Nesta tese, apresentarei dados sobre sincronização fótica e não-fótica dos ritmos circadianos em tuco-tucos, e sobre sincronização não-fótica em camundongos. Investigamos a sincronização fótica em tuco-tucos por meio de uma abordagem conjunta de campo e laboratório. Inicialmente medimos o ciclo claro/escuro natural percebido por animais mantidos em áreas cercadas em campo, utilizando aparelhos light loggers que registraram continuamente o padrão temporal diário da exposição à luz. Em seguida, foi aplicado um modelo desse padrão de exposição à luz em laboratório, para testar o seu potencial como um sincronizador fótico dos ritmos circadianos dos tuco-tucos. O modelo consistiu em pulsos de luz aplicados uma vez por dia em diferentes momentos aleatórios. Apesar de carregar o mínimo de informação temporal, esse regime luminoso foi um sincronizador eficiente em muitos casos, tal como previsto anteriormente a partir de simulações computacionais de um oscilador matemático. Os resultados revelam que a sincronização de osciladores circadianos é ainda mais robusta do que se imaginava. Nosso segundo conjunto de experimentos avaliou a sincronização não-fótica em tuco-tucos, os quais são herbívoros, expostos a ciclos diários de disponibilidade de alimentos. Semelhante a outras espécies de roedores, tuco-tucos desenvolveram uma atividade antecipatória ao alimento, expressa diariamente antes da alimentação. Houve, no entanto, grande variabilidade inter-individual na expressão da atividade antecipatória, provavelmente relacionada com diferenças nas respostas metabólicas à restrição temporal do alimento. O trabalho final foi uma colaboração com o Dr. Shin Yamazaki, sobre sincronização não-fótica em camundongos do tipo selvagem e camundongos mutantes com ablação genética do relógio circadiano. Ciclos diários de alimentos palatáveis e de corrida em roda induziram ritmicidade autossustentada em camundongos mutantes arrítmicos, que não expressavam os genes Period, componentes importantes da maquinaria molecular que gera os ritmos circadianos nas células. Estes resultados sugerem a existência de novos osciladores circadianos que respondem a sinais diários de recompensa. Enquanto espécies modelo de laboratório, tais como o camundongo, podem trazer informações valiosas sobre os mecanismos fisiológicos, as espécies selvagens como o tuco-tuco podem nos dar pistas sobre o significado ecológico dos fenômenos circadianos / Our research group studies circadian rhythms in a subterranean rodent from the genus Ctenomys, the tuco-tuco. In this thesis, I will present data on photic and non-photic synchronization of circadian rhythms in tuco-tucos, as well as a study on non-photic synchronization in the laboratory mouse. Natural photic synchronization in tuco-tucos was verified with field and laboratory approaches. We initially measured the natural light/dark cycle experienced by tuco-tucos in semi natural field enclosures, by means of automatic light logger devices that continuously recorded the daily temporal pattern of light exposure. Next, a model of this light exposure pattern was applied to tuco-tucos in the laboratory, to test its potential as a photic synchronizer of the circadian rhythms. The model consisted of single light pulses applied once a day at varying random times. Despite the minimal timing information, this light regimen was a successful synchronizer in many instances, as predicted from previous computer simulations of a mathematical oscillator. These results revealed that the synchronization of circadian oscillators is even more robust than previously thought. Our second set of experiments evaluated the non-photic synchronization in the herbivorous tuco-tucos, by exposing animals to daily cycles of food availability. Similar to other rodent species, tuco-tucos in this protocol developed a circadian food anticipatory activity (FAA) right before the daily feeding time. However, there was great interindividual variability in FAA expression, likely related to differences in the metabolic responses to time-restricted feeding. The final work was a collaboration with Dr. Shin Yamazaki from the University of Texas Southwestern Medical Center, regarding non-photic synchronization in wildtype and mutant mice with genetic disruption of the circadian clock. Daily cycles of palatable food and wheel running induced self-sustaining rhythmicity in arrhythmic mutant mice, which do not express the Period genes, key components of the molecular machinery responsible for circadian rhythm generation within the cells. These results suggest the existence of novel circadian oscillators responsive to daily rewarding signals. While model laboratory species such as the mouse can bring valuable information on physiological mechanisms, wild species like the tuco-tuco can give us insights into the ecological meaning of circadian phenomena

Arrastamento

Campo e laboratório

Light logger

Recompensa,Gene Period

Restrição alimentar

Entrainment

Field and laboratory

Light logger

Period gene

Restricted feeding

Reward