Phase extension methods

Sivia, Devinderjit Singh

January 1987

No description available.

520

Radio astronomy/image enhancement

Signal enhancement based on multivariable adaptive noise cancellation

Hung, Chih-Pin

January 1995

No description available.

621.3994

Speech enhancement; Noise suppression

Expression and transmission of transgenes in tilapia (Oreochromis niloticus)

Alam, Md Samsul

January 1995

No description available.

636.089

Transgenic fish; Growth enhancement

Development and application of processing techniques for signal enhancement using multisystem resistivity measurements.

Kamkar-Rouhani, Abolghasem

January 1998

DC electrical surveying involves the injection of current into the earth, and the measurement of the electrical potential differences this produces. A number of electrode configurations such as the Schlumberger and Wenner arrays, dipole-dipole and pole-pole geometries are in common use for electrical surveying. New acquisition systems enable the convenient collection of data with a number of common configurations at the same time. It is found however that while the recovery of layered structure from electrical surveys can be effective, the sensitivity and resolving power of such systems in detecting the presence of anomalous three-dimensional (3-D) bodies is poor. This is mainly due to the dominance of conduction pathways through the layered earth compared to the influence of small 3-D conductivity anomalies.Theoretical relationships between the responses of various survey geometries to the layered earth may be established as is shown in this thesis, but their response to 3-D targets differs strongly. This thesis introduces a new procedure for anomalous target detection by the computation of an apparent resistivity residual using multi-electrode configuration survey data. This procedure, applicable to a variety of electrode geometries, reduces the dominance of the layered earth response and enhances the signal from 3-D structures.In the development and testing of this new apparent resistivity residual, numerically modelled data were used. In order to obtain suitable test data of high accuracy it was necessary to make improvements to modelling software. For this purpose, recently developed techniques in numerical modelling such as the biconjugate gradient method, new digital linear filters for computation of Hankel transforms, and spectral formalism were employed in an integral equation approach for the software developed in this thesis.The computed apparent ++ / resistivity residual was found to depend on the array type and dimensions, the nature of the anomalous zone, geological layer geometries, and resistivity contrasts of the layers involved. While the apparent resistivity residual signature requires some measure of interpretation, it is shown to enhance the resolution and detectability of 3-D targets in a layered environment.The presence of random noise produces some degradation in the performance of the residual technique, but a normalisation procedure has been developed to alleviate the problem. A preliminary field trial showed that survey profiles of apparent resistivity residual were able to locate a subsurface conductive anomaly in an area in Western Australia.A transitional zone is defined as a layer in the earth where resistivity varies as a continuous function of depth. A theoretical formulation for the electrical response of an earth structure composed of anomalous 3-D bodies in the presence of transitional layers is introduced. Tests on synthetic survey data showed that the apparent resistivity residual is an effective anomaly detector in transitional layer environments.A multi-system method of computing an apparent resistivity residual has been developed theoretically and tested on both synthetic and field data. This new approach when applied to resistivity profiling is more sensitive to, and gives greater resolution of, localised anomalies than is possible using conventional profiling procedures.

A Q-enhanced 3.6 GHz tunable CMOS bandpass filter for wideband wireless applications

Ge, Jiandong

14 April 2004

With the rapid development of information technology, more and more bandwidth is required to transmit multimedia data. Since local communication networks are moving to wireless domain, it brings up great challenges for making integrated wideband wireless front-ends suitable for these applications. RF filtering is a fundamental need in all wireless front-ends and is one of the most difficult parts to be integrated. This has been a major obstacle to the implementation of low power and low cost integrated wireless terminals. <p> Lots of previous work has been done to make integrated RF filters applicable to these applications. However, some of these filters are not designed with standard CMOS technology. Some of them are not designed in desired frequency bands and others do not have sufficient frequency bandwidth. This research demonstrates the design of a tunable wideband RF filter that operates at 3.6 GHz and can be easily changed to a higher frequency range up to 5 GHz. This filter is superior to the previous designs in the following aspects: a) wider bandwidth, b) easier to tune, c) balancing in noise and linearity, and d) using standard CMOS technology. The design employs the state-of-the-art inductor degenerated LNA, acting as a transconductor to minimize the overall noise figure. A Q-enhancement circuit is employed to compensate the loss from lossy on-chip spiral inductors. Center frequency and bandwidth tuning circuits are also embedded to make the filter suitable for multi band operations. <p> At first, a second order bandpass filter prototype was designed in the standard 0.18 ìm CMOS process. Simulation results showed that at 3.6 GHz center frequency and with a 60-MHz bandwidth, the input third-order intermodulation product (IIP3) and input-referred 1 dB compression point (P1dB) was -22.5 dBm and -30.5 dBm respectively. The image rejection at 500 MHz away from the center frequency was 32 dB (250 MHz intermediate frequency). The Q of the filter was tunable over 3000 and the center frequency tuning range was about 150 MHz. <p> By cascading three stages of second order filters, a sixth order filter was designed to enhance the image rejection ability and to extend the filter bandwidth. The sixth order filter had been fabricated in the standard 0.18 ìm CMOS process using 1.8-V supply. The chip occupies only 0.9 mm 0.9 mm silicon area and has a power consumption of 130-mW. The measured center frequency was tunable from 3.54 GHz to 3.88 GHz, bandwidth was tunable from 35 MHz to 80 MHz. With a 65 MHz bandwidth, the filter had a gain of 13 dB, an IIP3 of -29 dBm and a P1dB of -46 dBm.

Filter

Q-enhancement

Wireless

CMOS

Solid Molecular Dispersions of Itraconazole for Enhanced Dissolution and Controlled Drug Delivery

Hong, Liu

12 February 2010

The purpose of this study was to investigate the formation of solid molecular dispersions of Itraconazole (ITZ) in a number of glassy polymers including PVP, crospovidone, PVP-EC, HPMCAS and HPMCAS-PEO to enhance its dissolution and achieve release control. Polarizing light microscopy was found to be more sensitive than DSC and XRD for detecting crystallinity. PVP, PVP-EC & crospovidone generated loading levels of ~20%, substantially greater than that of HPMCAS and HPMCAS-PEO (5%). The loaded ITZ was stabilized though molecular interactions with the polymer and reduced molecular mobility in a glassy polymer matrix. Overall, immediate release was achieve d using PVP and crospovidone, enteric delivery provided by HPMCAS, and controlled release generated with EC and PEO. Among all polymers studied, only ITZ in PVP failed to generate sufficient stability in the presence of moisture. In general, solid molecular dispersion is a useful approach to improve the poor solubility and bioavailability of Itraconazole.

solid molecular dispersions

solubility enhancement

Solid Molecular Dispersions of Itraconazole for Enhanced Dissolution and Controlled Drug Delivery

Hong, Liu

12 February 2010

The purpose of this study was to investigate the formation of solid molecular dispersions of Itraconazole (ITZ) in a number of glassy polymers including PVP, crospovidone, PVP-EC, HPMCAS and HPMCAS-PEO to enhance its dissolution and achieve release control. Polarizing light microscopy was found to be more sensitive than DSC and XRD for detecting crystallinity. PVP, PVP-EC & crospovidone generated loading levels of ~20%, substantially greater than that of HPMCAS and HPMCAS-PEO (5%). The loaded ITZ was stabilized though molecular interactions with the polymer and reduced molecular mobility in a glassy polymer matrix. Overall, immediate release was achieve d using PVP and crospovidone, enteric delivery provided by HPMCAS, and controlled release generated with EC and PEO. Among all polymers studied, only ITZ in PVP failed to generate sufficient stability in the presence of moisture. In general, solid molecular dispersion is a useful approach to improve the poor solubility and bioavailability of Itraconazole.

solid molecular dispersions

solubility enhancement

A Q-enhanced 3.6 GHz tunable CMOS bandpass filter for wideband wireless applications

Ge, Jiandong

14 April 2004

With the rapid development of information technology, more and more bandwidth is required to transmit multimedia data. Since local communication networks are moving to wireless domain, it brings up great challenges for making integrated wideband wireless front-ends suitable for these applications. RF filtering is a fundamental need in all wireless front-ends and is one of the most difficult parts to be integrated. This has been a major obstacle to the implementation of low power and low cost integrated wireless terminals. <p> Lots of previous work has been done to make integrated RF filters applicable to these applications. However, some of these filters are not designed with standard CMOS technology. Some of them are not designed in desired frequency bands and others do not have sufficient frequency bandwidth. This research demonstrates the design of a tunable wideband RF filter that operates at 3.6 GHz and can be easily changed to a higher frequency range up to 5 GHz. This filter is superior to the previous designs in the following aspects: a) wider bandwidth, b) easier to tune, c) balancing in noise and linearity, and d) using standard CMOS technology. The design employs the state-of-the-art inductor degenerated LNA, acting as a transconductor to minimize the overall noise figure. A Q-enhancement circuit is employed to compensate the loss from lossy on-chip spiral inductors. Center frequency and bandwidth tuning circuits are also embedded to make the filter suitable for multi band operations. <p> At first, a second order bandpass filter prototype was designed in the standard 0.18 ìm CMOS process. Simulation results showed that at 3.6 GHz center frequency and with a 60-MHz bandwidth, the input third-order intermodulation product (IIP3) and input-referred 1 dB compression point (P1dB) was -22.5 dBm and -30.5 dBm respectively. The image rejection at 500 MHz away from the center frequency was 32 dB (250 MHz intermediate frequency). The Q of the filter was tunable over 3000 and the center frequency tuning range was about 150 MHz. <p> By cascading three stages of second order filters, a sixth order filter was designed to enhance the image rejection ability and to extend the filter bandwidth. The sixth order filter had been fabricated in the standard 0.18 ìm CMOS process using 1.8-V supply. The chip occupies only 0.9 mm 0.9 mm silicon area and has a power consumption of 130-mW. The measured center frequency was tunable from 3.54 GHz to 3.88 GHz, bandwidth was tunable from 35 MHz to 80 MHz. With a 65 MHz bandwidth, the filter had a gain of 13 dB, an IIP3 of -29 dBm and a P1dB of -46 dBm.

Filter

Q-enhancement

Wireless

CMOS

Separation and Execution of graphical engine on a cross platform IDE to enhance performance

Hasan, Mohammad Rashedul

January 2010

“Biosim” is a simulation software which works to simulate the harvesting system.This system is able to design a model for any logistic problem with the combination of several objects so that the artificial system can show the performance of an individual model. The system will also describe the efficiency, possibility to be chosen for real life application of that particular model. So, when any one wish to setup a logistic model like- harvesting system, in real life he/she may be noticed about the suitable prostitution for his plants and factories as well as he/she may get information about the least number of objects, total time to complete the task, total investment required for his model, total amount of noise produced for his establishment in advance. It will produce an advance over view for his model. But “Biosim” is quite slow .As it is an object based system, it takes long time to make its decision. Here the main task is to modify the system so that it can work faster than the previous. So, the main objective of this thesis is to reduce the load of “Biosim” by making some modification of the original system as well as to increase its efficiency. So that the whole system will be faster than the previous one and performs more efficiently when it will be applied in real life. Theconcept is to separate the execution part of ”Biosim” form its graphical engine and run this separated portion in a third generation language platform. C++ is chosenhere as this external platform. After completing the proposed system, results with different models have been observed. The results show that, for any type of plants of fields, for any number of trucks, the proposed system is faster than the original system. The proposed system takes at least 15% less time “Biosim”. The efficiency increase with the complexity of than the original the model. More complex the model, more efficient the proposed system is than original “Biosim”.Depending on the complexity of a model, the proposed system can be 56.53 % faster than the original “Biosim”.

cross platform

IDE

enhancement of performance

Enhanced 8-bit microcontroller and its SoC integration

Chang, Po-hsiang

17 March 2006

The word ¡§3C products¡¨ means computation, communication and consumer electronics products. Particularly, consumer electronics products become one of the most important part of high technology industry. Recently, the properties of consumer electronics products tend to integrate powerful computation and communication abilities. Further more, the trend of more light, thin, short and small makes every kind of IC inside consumer electronics products highly integration. This tendency describe above brings embedded semiconductor providers a difficult problem. That is, we must improve the computation ability and function integration without increasing area overhead. The proposed method of this thesis is adding computation enhanced instructions in original instruction set without change basic architecture of microprocessor. Further, make a better design choice after analyzing different implement ways and considering their trade off between performance and cost. The goal is producing a powerful microprocessor which is improved the most with the least overhead. There are two directions in the result of this thesis. One is pure enhancing microprocessor computation ability. About 54% special operation execution time is reduced by adding operation enhanced instructions, but only taken 10% area cost. However, if 6.35% system frequency speeddown is acceptable, about 59% special operation execution time could be reduced. The other is the phenomenon after integrating In-Circuit Emulator (ICE) in microprocessor. Apparently, integrating debug mechanism doesn¡¦t change timing of whole system. However, it makes a great deal of circuit area overhead about 112%. This result shows that a system needs keep individual characters between microprocessor and ICE. A batter method of integrating ICE in system is using boundary scan cell in whole system.

Microcontroller

Operation enhancement

SoC integration