An investigation into the role of the retinoblastoma protein in colorectal carcinogenesis

Guy, Michelle

January 2001

No description available.

572.8

Tumour suppressors; Cancer

Germline and novel double p53 mutations in canine skin and testicular cancer

Watterson, Jeanette Debbie

January 2001

No description available.

616

Tumour suppressors

Positional cloning studies of multiple endocrine neoplasia type 1 (MEN1)

Bassett, John Howard Duncan

January 2001

No description available.

610

Tumours; Suppressors; Cancer

Biochemical characterisation of the eukarytic cell cycle regulatory proteins, E2F and pRB

Ali-Khan, Nadeem

January 2002

No description available.

572

Tumour suppressors

Nonlinear adaptive filtering for echo cancellation and decision feedback equalization

Michaelides, John Frixou

January 1987

No description available.

Telephone -- Echo suppressors

Adaptive filters

Nonlinear adaptive filtering for echo cancellation and decision feedback equalization

Michaelides, John Frixou

January 1987

No description available.

Adaptive filters

Telephone -- Echo suppressors

Studies on the proliferative potential in culture of mouse embryo fibroblasts of different embryonic ages

Ahmed, Gehad

January 2001

No description available.

572.8

Development of a second generation liner-style hydraulic suppressor

Salmon, Ryan Alex

07 January 2016

Noise in a fluid system can be treated with a prototypical liner-style suppressor, an expansion chamber which includes an internal annulus of syntactic foam. A syntactic foam liner consists of host material with hollow microspheres which collapse under pressure to add compliance to the suppressor. The liner effectively increases the transmission loss of the suppressor, or ratio between inlet and outlet acoustic energy. Currently, liner-style suppressors are not commercially available. This study investigates the integration of solid liner material within suppressor shells while also analyzing the effect of flow-smoothing diffusors on the transmission loss of the suppressor. The diffusors function to center the liner within the device, while reducing the potential for turbulence-induced self-noise. The diffusor may also impact the longevity of the liner, by reducing mechanical erosion. The results of the study provide additional insight to the commercial viability of the liner-style suppressor.

Hydraulics

Liner-style suppressors

Manufacturing

Noise control

Transmission loss

IN VITRO SCREEN FOR ROLES OF Drosophila melanogaster TUMOR SUPPRESSORS IN CELL LINE ESTABLISHMENT AND DIFFERENTIAL EXPRESSION ANALYSIS OF Drosophila melanogaster CELL LINES

Justiniano, Steven E.

01 October 2008

No description available.

Genetics

Drosophila melanogaster

tumor suppressors

cell line

Pten

microarray

Optimal configuration of adjustable noise suppressors

Gruber, Elliott Ross

03 April 2013

Noise generated by fluid power applications can be treated using bladder-style suppressors, and an optimal operating condition for these devices is sought in this thesis. Bladder-style suppressors employ a compliant nitrogen-charged bladder to create an impedance change within the system, reflecting the noise back to the source and preventing it from propagating downstream. The noise in a hydraulic system is created by a pump, the flow source in a hydraulic system, and can be separated into three categories: fluid-borne noise, structure-borne noise and airborne noise. Fluid-borne noise places addition stress on sealing surfaces, potentially causing leaks. Airborne noise can be uncomfortable, even hazardous depending on the level. Bladder-style suppressors primarily treat fluid-borne noise; however, it is seen in the literature that fluid-borne noise is the cause of structure-borne and airborne noise. This thesis presents an optimization method for finding the optimal charge pressure for implementation with a given system operating over a broad range of system pressures. The optimization weights suppressor performance by the spectral content of the fluid-borne noise as well as the duty cycle of the system. A single charge pressure works well over a small range of system pressures, though many fluid power applications operate over a larger range of system pressure than the usable range of a suppressor. For systems operating over an extremely broad pressure range, two suppressors charged to different pressures are used to treat the noise in the entire system pressure range. To determine suppressor performance experimental measurements were performed, and models developed, of the transmission loss of this type of device. A multi-microphone method using transfer function relationships between six sensors determines the transmission loss of the suppressor under test. An equivalent fluid model modeling the wave behavior both upstream and downstream, as well as within the suppressor, was created to predict suppressor transmission loss. Optimal configurations are found for a set of system pressures, charge pressures and duty cycles. Analysis of the results shows the time weighting has a more significant impact on the optimum charge pressure than the frequency weighting, as shown by duty cycles considered in this thesis. In addition, all charge pressures selected as optimal for either single suppressor optimizations or double suppressor optimizations, exhibit the highest transmission loss for a single system pressure in the pressure duty cycle for a simulated machine.

Transmission loss

Hydraulics

Optimization

Bladder-style suppressors

Noise control

Fluid power technology