Showing total 57 results

51. Audio Steganalysis With Content-Independent Distortion Measures.

Author

Avcibaş, İsmail

Subjects

METHODOLOGY, DIGITAL audio, POWER resources, DIGITAL electronics, NATURAL resources

Abstract

We first propose a novel content-independent distortion measurement method and use this methodology for digital audio steganalysis. Content-independent distortion measures are utilized as features for the classifier (steganalyzer) design. Experimental results show that the removal of content dependency from features enhances their discriminatory power. [ABSTRACT FROM AUTHOR]

Published

2006

52. Application of Different Types of High-Voltage Supplies on Industrial Electrostatic Precipitators.

Author

Grass, Norbert, Hartmann, Werner, and Klöckner, Michael

Subjects

POWER resources, ELECTRONICS, CONSUMPTION (Economics), ELECTRIC utilities, NATURAL resources, ELECTRIC power

Abstract

Investigations of the requirements for high-voltage (HV) power supplies for zones within an electrostatic precipitator (ESP) were conducted with regard to the properties of different technologies for HV generation. The zones of an ESP show different electrical behavior and efficiency. This is a result of: 1) the different dust loads of the zones; 2) the particle size and properties; and 3) the possibility of charging the particles in the entire zone using suitable technology. An overview, of common and new topologies of HV supplies and their typical properties is given. It is shown how these properties can be used to match the requirements of the different zones of an ESP regarding the actual operating conditions. Large particles and high dust loads can be addressed effectively using high-frequency dc power supplies. Fine particles, however, can be separated even more efficiently by pulsed power supplies. Additionally, the power consumption of different HV sources has been investigated in relation to the separation efficiency. Experimental results were obtained on an industrial ESP containing 3 zones in a sinter plant and on a large scale precipitator in a fossil power plant, containing 30 zones. It was shown that a high frequency IGBT inverter combined with a microsecond-pulsed power supply significantly improved the overall performance of the precipitator. [ABSTRACT FROM AUTHOR]

Published

2004

53. Combined Power Control and Error-Control Coding in Multicarrier DS-CDMA Systems.

Author

Kim, Jik Dong, Kim, Sang Wu, and Kim, Young Gil

Subjects

POWER resources, NATURAL resources, CODING theory, DATA compression, DIGITAL electronics, INFORMATION theory, MACHINE theory

Abstract

We propose truncating the transmission power (allocating no power) for symbols with low channel gain, and tagging erasures on the corresponding symbols at the receiver. The motivation is that symbols with low channel gain are highly likely to be in error and yet, if transmitted, consume the energy resource and generate interference to other users. Truncating the power for those symbols has the effect of reducing the interference to other users and allocating more power on symbols with high channel gain (thereby reducing the error probability). Since block codes can correct twice as many erasures as errors, the coded performance can be improved by properly combining the power control with the error-control coding. In this letter, we analyze the performance of the Reed_solomon-coded multicarrier direct- sequence code-division multiple-access systems with two power-control schemes. We show that the probability of incorrect decoding can be significantly improved by properly combining the power control with the error- control coding. [ABSTRACT FROM AUTHOR]

Published

2004

54. Possible power generation with nature's high-efficiency technology.

Author

Oman, H.

Abstract

The rapidly growing fuel consumption in engines and turbine that power the world's transportation vehicles and power-generation plants will nearly exhaust the world's supply of petroleum by the end of the next century. These engines and turbines run at high heat-input temperatures because their efficiency is limited by the Carnot cycle. Muscles used for propulsion by animals are not limited in efficiency by the Carnot cycle, so we see dolphins getting 3,000 miles of travel from a food quantity that contains the energy equivalent of one gallon of gasoline. Leaves on plants capture the energy in sunlight to extract carbon from carbon dioxide in the air, and hydrogen form water, to manufacture carbohydrates. Scientists and engineers studying these processes are amazed by the computing power and data storage required to make these processes work. For example, a tiny grape seed contains the data and structural technology required for quickly constructing the plant's fuel-producing leaves and the structures that support them. Even the stiff thorn that discourages intruders from entering the grape bush has an effective design. The data stored in the seed specifies the color of the grape plant's blossoms, commands the production of the sugar-containing fluid that goes into the grapes, and even the data content of the next-generation seeds in the globules of each grape berry. In this report, we explore energy-conversion processes that nature has developed in plants and animals. We explore the possibility of adapting them into techniques that reduce our consumption of petroleum fuels. [ABSTRACT FROM PUBLISHER]

Published

2003

55. Buried unexploded ordnance identification via complex...

Author

Chen, Chi-Chih and Peters Jr., Leon

Subjects

ORDNANCE testing, NATURAL resources

Abstract

Considers a classification technique focused on the identification of buried unexploded ordnance (UXO) using complex natural resonance (CNR) signature. Advantages of using the CNR signatures for target classification; Conventional Prony method for CNR extraction; Calculation on CNR's four different UXO via computational modeling; Conclusion.

Published

1997

56. Contextual learning for unit commitment with renewable energy sources

Author

Jang-Won Lee, Hyun-Suk Lee, Mikaela van der Schaar, and Cem Tekin

Subjects

Schedule, Renewable energy, Operations research, Computer science, 020209 energy, Real-time computing, Renewable energy source, Context (language use), 02 engineering and technology, Learning algorithms, Context information, Unit commitment, Electric power system, Power system simulation, 0202 electrical engineering, electronic engineering, information engineering, Learning, Average cost, business.industry, Unit commitment problem, Contextual learning, Uncertainty, 020206 networking & telecommunications, Renewable energy resources, Semantics, Electricity generation, Natural resources, business, Operating costs

Abstract

Date of Conference: 7-9 December 2016 Conference Name: IEEE Global Conference on Signal and Information Processing, GlobalSIP 2016 In this paper, we study a unit commitment (UC) problem minimizing operating costs of the power system with renewable energy sources. We develop a contextual learning algorithm for UC (CLUC) which learns which UC schedule to choose based on the context information such as past load demand and weather condition. CLUC does not require any prior knowledge on the uncertainties such as the load demand and the renewable power outputs, and learns them over time using the context information. We characterize the performance of CLUC analytically, and prove its optimality in terms of the long-term average cost. Through the simulation results, we show the performance of CLUC and the effectiveness of utilizing the context information in the UC problem.

Published

2017

57. On Speed Stability.

Author

Samuelsson, Olof and Lindahl, Sture

Subjects

LETTERS to the editor, POWER resources, NATURAL resources, ELECTRIC power, ELECTRICITY, ENERGY policy

Abstract

Distributed energy resources, such as wind turbine generators, often employ induction generators. When such a generator is subjected to a nearby fault, its rotor may accelerate and reach high steady-state speed far from that corresponding to the frequency of the system. This is the generator counterpart to induction motor stalling, which is classified as voltage stability. The phenomenon is a matter of stability, but it is not covered by current definitions of power system stability. We denote this type of stability as speed stability and propose a definition, which also includes induction motor stalling. [ABSTRACT FROM AUTHOR]

Published

2005