Digital chaos synchronization in optical networks

A new method to obtain digital chaos synchronization between two systems is reported. It is based on the use of Optically Programmable Logic Cells as chaos generators. When these cells are feedbacked, periodic and chaotic behaviours are obtained. They depend on the ratio between internal and external delay times. Chaos synchronization is obtained if a common driving signal feeds both systems. A control to impose the same boundary conditions to both systems is added to the emitter. New techniques to analyse digital chaos are presented. The main application of these structures is to obtain secure communications in optical networks.

MPEG-M: A Digital Media Ecosystem for Interoperable Applications

MPEG-M is a suite of ISO/IEC standards (ISO/IEC 23006) that has been developed under the auspices of Moving Picture Experts Group (MPEG). MPEG-M, also known as Multimedia Service Platform Technologies (MSPT), facilitates a collection of multimedia middleware APIs and elementary services as well as service aggregation so that service providers can offer users a plethora of innovative services by extending current IPTV technology toward the seamless integration of personal content creation and distribution, e-commerce, social networks and Internet distribution of digital media.

Synchronizing chaotic optically-programmable digital circuits

In this paper an approach to the synchronization of chaotic circuits has been reported. It is based on an optically programmable logic cell and the signals involved are fully digital. It is based on the reception of the same input signal on sender and receiver and from this approach, with a posterior correlation between both outputs, an identical chaotic output is obtained in both systems. No conversion from analog to digital signals is needed. The model here presented is based on a computer simulation.

Hogar digital para servicios FTTH : dispositivos, tecnologías y QoE

FTTH (fibra hasta el hogar) es actualmente, junto con la banda ancha móvil, la principal evolución tecnológica en Redes y Servicios de Telecomunicaciones. Se prevé que en los próximos años, el despliegue de las redes FTTH se vea incrementado de manera significativa, gracias al interés creciente tanto de Operadores de Telecomunicaciones como de Organismos Gubernamentales. Este despliegue (que en el año 2013 ya se está haciendo realidad) llevará servicios de muy alta velocidad (superiores a 100 Mbps, incluso 1 Gbps) de manera masiva a los hogares, exigiendo nuevos requisitos y prestaciones en la red del hogar de los clientes. Se abre aquí, por tanto, un campo de exploración novedoso, incipiente y de requerimientos cada vez más exigentes. De hecho, sin duda, la red del hogar es uno de los elementos fundamentales para el éxito de las redes y servicios en FTTH. Debido a todo lo anterior, se convierte en una necesidad para el sector de las Telecomunicaciones el encontrar soluciones a los problemas anteriormente mencionados. Con objeto de contribuir al análisis de soluciones, este proyecto se enfoca en dos temas, ambos relacionados con la problemática ya mencionada en la red del hogar:  Prospección e identificación de soluciones tecnológicas avanzadas para la red del hogar. Descrito en capítulos 2, 3 y 4. En ellos se realiza un estudio detallado de la situación actual y tendencias futuras de los dispositivos utilizados en la red del hogar. Este estudio está enfocado en la distribución de señales de muy alto ancho de banda (en torno a los 100 Mbps por segundo) en el hogar.  Diseño y desarrollo de una aplicación que permita determinar la calidad de experiencia de cliente (QoE) de un servicio de televisión IP (IPTV). Descrito en capítulos 5 y 6. Se ha seleccionado este tipo de servicios debido a que son los que requieren mayores prestaciones tanto de la red de transporte como de la red del hogar y, al mismo tiempo, son los más complicados de medir debido a la fuerte componente de subjetividad del usuario final. Una red del hogar correctamente diseñada debe cumplir de manera equilibrada los requisitos demandados tanto por el operador como por el cliente o usuario final del servicio. Los requisitos del operador se centran principalmente en el control de la inversión (CAPEX) y del gasto de mantenimiento de la red del hogar (OPEX). El usuario, por otra parte, requiere sencillez en la instalación y mínimo número de elementos a instalar (cero intrusismo, ausencia de cableado). Para adaptarse a estos requerimientos, existe una serie de dispositivos y tecnologías que buscan encontrar el punto de equilibrio entre necesidades de operadores y de clientes finales. Las soluciones actualmente utilizadas pueden dividirse en soluciones cableadas e inalámbricas. También existen soluciones híbridas. Todas ellas se describen en detalle en los capítulos 3 y 4. Al final del estudio se concluye que, con la tecnología actual, es preferible el uso de soluciones cableadas tipo Ethernet o POF. Es recomendable no usar soluciones PLC de manera extensiva (G.hn puede ser una alternativa a futuro) y, en caso de no requerir cableado, utilizar WiFi 11n con frecuencias de 5 GHz, así como sus evoluciones, WiFi 11ac y 11ad. La aplicación desarrollada, explicada en los capítulos 5 y 6, permite capturar y medir en tiempo real la señal de televisión IP que se entrega al usuario. Esta aplicación estimará, a partir de dichas medidas, la calidad de la señal entregada. Para ello tendrá en cuenta el tipo de descodificador utilizado por el usuario así como la red empleada (red FTTH de Telefónica). Esta aplicación podría ser utilizada en los centros de atención técnica de las operadoras de telecomunicaciones, determinando así la relación existente entre reclamaciones recibidas y calidad de servicio medida por la aplicación. Asimismo, aparte de realizar medidas en tiempo real, la aplicación vuelca las medidas realizadas y alarmas detectadas en ficheros log, facilitando el análisis técnico de los problemas e incidencias registrados por dichos centros técnicos. Igualmente, esta aplicación puede ser utilizada para el proceso de certificación de equipamiento de red del hogar o incluso como herramienta para profundizar en parámetros teóricos y criterios de medida de calidad de servicio en IPTV. ABSTRACT. FTTH (Fiber To The Home) and mobile broadband are currently the main technological trend in the Network and Telecommunications Services area. In the next few years, the deployment of FTTH networks will experiment a significant increase, due to the growing interest of both telecommunications operators and government agencies. This deployment (that is becoming a reality) which will massively carry high-speed services to households (speeds of more than 100 Mbps, even 1 Gbps) will demand new requirements and features in the customer’s home network. It can be found here a new and emerging field of exploration, with increasingly demanding requirements. In fact, the home network is one of the key elements for the success of FTTH network and services. Due to the aforementioned, it is a necessity for the telecommunications industry to find solutions to these problems. In order to contribute into the solution analysis, this project focuses on two subjects, both related to the problems of home networking:  Exploratory research and identification of advanced technology solutions for the home network. Described in chapters 2, 3 and 4. These chapters show a detailed study of the current situation and future trends of the devices used at the home network. It focuses on the distribution of very high bandwidth signals (around 100 Mbps per second) in the customer’s home.  Design and development of an application to evaluate customer’s quality of experience (QoE) of an IP television service (IPTV). Described in chapters 5 and 6. IPTV service has been selected because it requires higher performance both from the transport and the home networks and, at the same time, it is the most difficult to measure due to the strong component of subjectivity of the end user. A correct design of the home network must meet the requirements demanded both by the network operator and the customer (end user of the service). Network operator requirements mainly focus on reduced capital expenditures (CAPEX) and operational expenditures (OPEX). Additionally, the final user requires a simple and easy installation and also the minimum number of items to install (zero intrusion, lack of wiring, etc.). Different devices and technologies seek to find a balance between these two requirements (network operators and final users requirements). Solutions available in the market can be divided into wired and wireless. There are also hybrid solutions. All of them are described thoroughly in the first part of the project. The conclusion at the end of the study recommends the use of wired technologies like Ethernet or POF. Additionally, the use of PLC is not advised (G.hn can be an alternative in the future) and, in the case of not requiring wiring, the use of 11ac and 11ad WiFi is advised. The application developed in the second part of the project allows capturing and measuring the real-time IPTV signal delivered to the user. This application will estimate the delivered signal quality from the captured measurements. For this purpose, it will also consider the type of decoder installed on the customer’s premises and the transport network (Telefonica’s FTTH network). This application could be used at the operator’s technical service centres, determining in this way the relationship between user’s complaints and the quality of service measured. Additionally, this application can write all the measurements and alarms in log files, making easier the technical analysis of problems and impairments recorded by the technical centres. Finally, the application can also be used for the certification process of home networking equipment (i.e. decoders) or even as a tool to deepen theoretical parameters and measuring criteria of quality of service in IPTV.

Digital chaos analysis in optical logic structures

Digital chaotic behavior in an optically processing element is analyzed. It was obtained as the result of processing two fixed trains of bits. The process is performed with an optically programmable logic gate. Possible outputs, for some specific conditions of the circuit, are given. Digital chaotic behavior is obtained, by using a feedback configuration. Different ways to analyze a digital chaotic signal are presented.

Optical digital chaos cryptography

In this work we present a new way to mask the data in a one-user communication system when direct sequence - code division multiple access (DS-CDMA) techniques are used. The code is generated by a digital chaotic generator, originally proposed by us and previously reported for a chaos cryptographic system. It is demonstrated that if the user's data signal is encoded with a bipolar phase-shift keying (BPSK) technique, usual in DS-CDMA, it can be easily recovered from a time-frequency domain representation. To avoid this situation, a new system is presented in which a previous dispersive stage is applied to the data signal. A time-frequency domain analysis is performed, and the devices required at the transmitter and receiver end, both user-independent, are presented for the optical domain.

Secure transmission of information by digital chaotic signals

Protecting signals is one of the main tasks in information transmission. A large number of different methods have been employed since many centuries ago. Most of them have been based on the use of certain signal added to the original one. When the composed signal is received, if the added signal is known, the initial information may be obtained. The main problem is the type of masking signal employed. One possibility is the use of chaotic signals, but they have a first strong limitation: the need to synchronize emitter and receiver. Optical communications systems, based on chaotic signals, have been proposed in a large number of papers. Moreover, because most of the communication systems are digital and conventional chaos generators are analogue, a conversion analogue-digital is needed. In this paper we will report a new system where the digital chaos is obtained from an optically programmable logic structure. This structure has been employed by the authors in optical computing and some previous results in chaotic signals have been reported. The main advantage of this new system is that an analogue-digital conversion is not needed. Previous works by the authors employed Self-Electrooptical Effect Devices but in this case more conventional structures, as semiconductor laser amplifiers, have been employed. The way to analyze the characteristics of digital chaotic signals will be reported as well as the method to synchronize the chaos generators located in the emitter and in the receiver.

Analysis of digital chaotic optical signals

The main objective of this paper is to present some tools to analyze a digital chaotic signal. We have proposed some of them previously, as a new type of phase diagrams with binary signals converted to hexadecimal. Moreover, the main emphasis will be given in this paper to an analysis of the chaotic signal based on the Lempel and Ziv method. This technique has been employed partly by us to a very short stream of data. In this paper we will extend this method to long trains of data (larger than 2000 bit units). The main characteristics of the chaotic signal are obtained with this method being possible to present numerical values to indicate the properties of the chaos.

Transmission of digital chaotic and information-bearing signals in optical communication systems

A new proposal to have secure communications in a system is reported. The basis is the use of a synchronized digital chaotic systems, sending the information signal added to an initial chaos. The received signal is analyzed by another chaos generator located at the receiver and, by a logic boolean function of the chaotic and the received signals, the original information is recovered. One of the most important facts of this system is that the bandwidth needed by the system remain the same with and without chaos.

Metodología para ejecución y control de calidad para ortofotos, mediante combinación de sensor digital con LIDAR en zonas rurales

La utilización de una cámara fotogramétrica digital redunda en el aumento demostrable de calidad radiométrica debido a la mejor relación señal/ruido y a los 12 bits de resolución radiométrica por cada pixel de la imagen. Simultáneamente se consigue un notable ahorro de tiempo y coste gracias a la eliminación de las fases de revelado y escaneado de la película y al aumento de las horas de vuelo por día. De otra parte, el sistema láser aerotransportado (LIDAR - Light Detection and Ranging) es un sistema con un elevado rendimiento y rentabilidad para la captura de datos de elevaciones para generar un modelo digital del terreno (MDT) y también de los objetos sobre el terreno, permitiendo así alcanzar alta precisión y densidad de información. Tanto el sistema LIDAR como el sistema de cámara fotogramétrica digital se combinan con otras técnicas bien conocidas: el sistema de posicionamiento global (GPS - Global Positioning System) y la orientación de la unidad de medida inercial (IMU - Inertial Measure Units), que permiten reducir o eliminar el apoyo de campo y realizar la orientación directa de los sensores utilizando datos de efemérides precisas de los satélites. Combinando estas tecnologías, se va a proponer y poner en práctica una metodología para generación automática de ortofotos en países de América del Sur. Analizando la precisión de dichas ortofotos comparándolas con fuente de mayor exactitud y con las especificaciones técnicas del Plan Nacional de Ortofotografía Aérea (PNOA) se determinará la viabilidad de que dicha metodología se pueda aplicar a zonas rurales. ABSTRACT Using a digital photogrammetric camera results in a demonstrable increase of the radiometric quality due to a better improved signal/noise ratio and the radiometric resolution of 12 bits per pixel of the image. Simultaneously a significant saving of time and money is achieved thanks to the elimination of the developing and film scanning stages, as well as to the increase of flying hours per day. On the other hand, airborne laser system Light Detection and Ranging (LIDAR) is a system with high performance and yield for the acquisition of elevation data in order to generate a digital terrain model (DTM), as well as objects on the ground which allows to achieve high accuracy and data density. Both the LIDAR and the digital photogrammetric camera system are combined with other well known techniques: global positioning system (GPS) and inertial measurement unit (IMU) orientation, which are currently in a mature evolutionary stage, which allow to reduce and/or remove field support and perform a direct guidance of sensors using specific historic data from the satellites. By combining these technologies, a methodology for automatic generation of orthophotos in South American countries will be proposed and implemented. Analyzing the accuracy of these orthophotos comparing them with more accurate sources and technical specifications of the National Aerial Orthophoto (PNOA), the viability of whether this methodology should be applied to rural areas, will be determined.

Microspectroscopic imaging tracks the intracellular processing of a signal transduction protein: fluorescent-labeled protein kinase C beta I.

We have devised a microspectroscopic strategy for assessing the intracellular (re)distribution and the integrity of the primary structure of proteins involved in signal transduction. The purified proteins are fluorescent-labeled in vitro and reintroduced into the living cell. The localization and molecular state of fluorescent-labeled protein kinase C beta I isozyme were assessed by a combination of quantitative confocal laser scanning microscopy, fluorescence lifetime imaging microscopy, and novel determinations of fluorescence resonance energy transfer based on photobleaching digital imaging microscopy. The intensity and fluorescence resonance energy transfer efficiency images demonstrate the rapid nuclear translocation and ensuing fragmentation of protein kinase C beta I in BALB/c3T3 fibroblasts upon phorbol ester stimulation, and suggest distinct, compartmentalized roles for the regulatory and catalytic fragments.

Re-Examining the Stop-Signal Task to Test Competing Theories of AD/HD

The current study tested two competing models of Attention-Deficit/Hyperactivity Disorder (AD/HD), the inhibition and state regulation theories, by conducting fine-grained analyses of the Stop-Signal Task and another putative measure of behavioral inhibition, the Gordon Continuous Performance Test (G-CPT), in a large sample of children and adolescents. The inhibition theory posits that performance on these tasks reflects increased difficulties for AD/HD participants to inhibit prepotent responses. The model predicts that putative stop-signal reaction time (SSRT) group differences on the Stop-Signal Task will be primarily related to AD/HD participants requiring more warning than control participants to inhibit to the stop-signal and emphasizes the relative importance of commission errors, particularly "impulsive" type commissions, over other error types on the G-CPT. The state regulation theory, on the other hand, proposes response variability due to difficulties maintaining an optimal state of arousal as the primary deficit in AD/HD. This model predicts that SSRT differences will be more attributable to slower and/or more variable reaction time (RT) in the AD/HD group, as opposed to reflecting inhibitory deficits. State regulation assumptions also emphasize the relative importance of omission errors and "slow processing" type commissions over other error types on the G-CPT. Overall, results of Stop-Signal Task analyses were more supportive of state regulation predictions and showed that greater response variability (i.e., SDRT) in the AD/HD group was not reducible to slow mean reaction time (MRT) and that response variability made a larger contribution to increased SSRT in the AD/HD group than inhibitory processes. Examined further, ex-Gaussian analyses of Stop-Signal Task go-trial RT distributions revealed that increased variability in the AD/HD group was not due solely to a few excessively long RTs in the tail of the AD/HD distribution (i.e., tau), but rather indicated the importance of response variability throughout AD/HD group performance on the Stop-Signal Task, as well as the notable sensitivity of ex-Gaussian analyses to variability in data screening procedures. Results of G-CPT analyses indicated some support for the inhibition model, although error type analyses failed to further differentiate the theories. Finally, inclusion of primary variables of interest in exploratory factor analysis with other neurocognitive predictors of AD/HD indicated response variability as a separable construct and further supported its role in Stop-Signal Task performance. Response variability did not, however, make a unique contribution to the prediction of AD/HD symptoms beyond measures of motor processing speed in multiple deficit regression analyses. Results have implications for the interpretation of the processes reflected in widely-used variables in the AD/HD literature, as well as for the theoretical understanding of AD/HD.

Human Motion Analysis Based on Sequential Modeling of Radar Signal and Stereo Image Features

Falls are one of the greatest threats to elderly health in their daily living routines and activities. Therefore, it is very important to detect falls of an elderly in a timely and accurate manner, so that immediate response and proper care can be provided, by sending fall alarms to caregivers. Radar is an effective non-intrusive sensing modality which is well suited for this purpose, which can detect human motions in all types of environments, penetrate walls and fabrics, preserve privacy, and is insensitive to lighting conditions. Micro-Doppler features are utilized in radar signal corresponding to human body motions and gait to detect falls using a narrowband pulse-Doppler radar. Human motions cause time-varying Doppler signatures, which are analyzed using time-frequency representations and matching pursuit decomposition (MPD) for feature extraction and fall detection. The extracted features include MPD features and the principal components of the time-frequency signal representations. To analyze the sequential characteristics of typical falls, the extracted features are used for training and testing hidden Markov models (HMM) in different falling scenarios. Experimental results demonstrate that the proposed algorithm and method achieve fast and accurate fall detections. The risk of falls increases sharply when the elderly or patients try to exit beds. Thus, if a bed exit can be detected at an early stage of this motion, the related injuries can be prevented with a high probability. To detect bed exit for fall prevention, the trajectory of head movements is used for recognize such human motion. A head detector is trained using the histogram of oriented gradient (HOG) features of the head and shoulder areas from recorded bed exit images. A data association algorithm is applied on the head detection results to eliminate head detection false alarms. Then the three dimensional (3D) head trajectories are constructed by matching scale-invariant feature transform (SIFT) keypoints in the detected head areas from both the left and right stereo images. The extracted 3D head trajectories are used for training and testing an HMM based classifier for recognizing bed exit activities. The results of the classifier are presented and discussed in the thesis, which demonstrates the effectiveness of the proposed stereo vision based bed exit detection approach.

Rapid Scan Electron Paramagnetic Resonance (EPR) and Digital EPR Development

Rapid scan electron paramagnetic resonance (EPR) was developed in the Eaton laboratory at the University of Denver. Applications of rapid scan to wider spectra, such as for immobilized nitroxides, spin-labeled proteins, irradiated tooth and fingernail samples were demonstrated in this dissertation. The scan width has been increased from 55 G to 160 G. The signal to noise (S/N) improvement for slowly tumbling spin-labeled protein samples that is provided by rapid scan EPR will be highly advantageous for biophysical studies. With substantial improvement in S/N by rapid scan, the dose estimation for irradiated tooth enamels became more reliable than the traditional continuous wave (CW) EPR. An alternate approach of rapid scan, called field-stepped direct detection EPR, was developed to reconstruct wider EPR signals. A Mn2+ containing crystal was measured by field-stepped direct detection EPR, which had a spectrum more than 6000 G wide. Since the field-stepped direct detection extends the advantages of rapid scan to much wider scan ranges, this methodology has a great potential to replace the traditional CW EPR. With recent advances in digital electronics, a digital rapid scan spectrometer was built based on an arbitrary waveform generator (AWG), which can excite spins and detect EPR signals with a fully digital system. A near-baseband detection method was used to acquire the in-phase and quadrature signals in one physical channel. The signal was analyzed digitally to generate ideally orthogonal quadrature signals. A multiharmonic algorithm was developed that employed harmonics of the modulation frequencies acquired in the spectrometer transient mode. It was applied for signals with complicated lineshapes, and can simplify the selection of modulation amplitude. A digital saturation recovery system based on an AWG was built at X-band (9.6 GHz). To demonstrate performance of the system, the spin-lattice relaxation time of a fused quartz rod was measured at room temperature with fully digital excitation and detection.

Digital filtering using burst processing techniques /

Thesis (M. S.)--University of Illinois at Urbana-Champaign.