Compressive Passive Millimeter Wave Imaging with Extended Depth of Field

... This interest is driven, in part, by the ability of these frequencies to penetrate poor weather and other obscurants, such as clothes and polymers. Millimeter waves are electromagnetic waves typically defined in the 30 to 300 GHz range with corresponding wavelengths between 10 to 1 mm. Radiation at ...

Non-destructive terahertz imaging of illicit drugs using spectral

... The terahertz (THz) waves, categorized between millimeter radio waves and far infrared light waves, exhibit properties of both sides of the electromagnetic spectrum. Like radio waves, they can be transmitted through a wide variety of substances such as paper, cloth, ceramics, plastics, wood, bone, f ...

RESOLVING POWER AND MODULATION TRANSFER FUNCTION

... However, the resolution achievable by the optical system limits the imaging quality: inspecting the image in detail shows that sharp edges or corners in the mask will be imaged into less sharp (blurred) edges or corners on the target. Similarly, tiny slits or holes will be transformed into slit or s ...

RIT - People - Rochester Institute of Technology

... Figure 1: Comparison of amplitude transfer function and optical transfer function. Cutoff frequencies are shown for each case. ...

Table of Contents - Amazon Web Services

... This analysis of Medicare claims data reveals that per beneficiary imaging spending and per beneficiary utilization of imaging has declined substantially in recent years. In addition, imaging spending as a percentage of all Medicare carrier paid spending is at its lowest level in more than a decade. ...

Chapter 1 Class Notes - Fullfrontalanatomy.com

... 1. Computed tomography (CT) or computed axial tomography (CAT) produces improved X-ray images that are computer enhanced for clarity. 2. Dynamic spatial reconstruction (DSR) produces three-dimensional images of body organs that can be rotated. 3. Xenon CT is used to diagnose a stroke (a blockage or ...

SIMG-261 – Linear Mathematics for Imaging Roger L. Easton, Jr.,

... I. Introduction, motivation and goal: to construct alternative representations of functions and systems to allow solution of some imaging tasks, will require aspects of calculus, linear algebra (vectors and matrices), and complex numbers A. Imaging “Chain” B. Imaging systems: input “object” f, outpu ...

Single-pixel infrared and visible microscope

... For a given resolution, the frame rate is simply a function of the number of masks and the mask display rate. The resulting frame rate is then R Patt ∕2N where R Patt is the pattern display rate and N is the number of a pixels in the image. For our particular DMD, the pattern display rate of 22 kHz ...

Optoniks

... We are working with: Intel and National Science Foundation (NSF) OPTONIKS has completed a 3D profilometry system prototype for Intel metrology lab which is responsible for measurement requirements and requests from other departments within Intel and also develops and assesses new metrology systems a ...

MEDICAL PHYSICS INTERNATIONAL

... I. INTRODUCTION AND OVERVIEW Magnetic resonance imaging (MRI) is a highly effective clinical diagnostic method because it produces images that provide visualization of a variety of tissue characteristics and fluid movement that relate to physiological function and show signs of disease. This extensi ...

Introduction to Biomedical Imaging

... beam passes through objects of different consistency and hardness. The distance between these spikes (for example A and B ) can be measured accurately by dividing the speed of sound in tissue (1540 m/sec) by half the sound travel time. ...

A History of Imaging

... similar British eﬀort on glass. British support of Faraday led to further improvements in glass homogeneity. However, Faraday did little to advance the link between glass composition and its optical properties. Instead, advances in glass chemistry were conducted outside the mainstream. For example, ...

3D AND MULTISPECTRAL IMAGING FOR SUBCUTANEOUS

... imaging, line detection, medical applications. 1. INTRODUCTION Biomedical imaging techniques based on wave propagation phenomena in biological tissues are commonly used to detect and treat diseases but are also used to image noninvasively organs and biological structures inside the body. Amongst the ...

Wide-field extended-resolution fluorescence

... more than four times enhancement compared with TIRF (p-pol) while TIRF (p-pol) shows about 40% higher intensity than TIRF (s-pol). Both of the differences are statistically significant by Student’s t test (p < .001). It is noted that SPRF signal enhancement was not predicted with simulation without ...

report - CREATE project

... instead of 75 fs, centered at the same wavelength, we should obtain 2.5 fold higher signal. However reduced pulse duration is associated with increased bandwidth of the laser, thus dealing with the dispersion by the optical elements becomes more difficult. For such a short pulses as 30 fs the higher ...

R1B p4 - CenSSIS - Northeastern University

... at a given focal plane is contaminated by out-of-focus information coming from other planes [1]. There is a need to develop 3D imaging models for phase microscopes that will allow deconvolution, or more generally inverse reconstruction, techniques to be developed. Thus there is a need for an image f ...

AOTF-based system for image cytometry

... paratellurite efficiencies of 75-90% are possible, the actual efficiency becomes approximately half of the maximum possible. Increase in sensitivity can be achieved by projecting the two resulting images onto one CCD chip. It is also possible to extend the functionality of our system by projecting t ...

PDF Link

... clear dip in intensity) when imaged by a specific microscope. The same point sources in the same locations will not be resolved by the same microscope (that is, will appear as only one large spot) if the sources are instead emitting light that is coherent and in-phase. However, the two sources becom ...

Roger`s Descriptions

... 1-D and 2-D continuous Fourier transforms 4.3.1 projections of functions onto basis functions 4.3.2 basis functions of linear shift-invariant systems 4.3.3 theorems of continuous Fourier transforms Imaging systems as filters 4.4.1 classes of filters: lowpass, highpass, bandpass, phase ...

PASSIVE MILLIMETER-WAVE IMAGING WITH EXTENDED DEPTH OF FIELD AND SPARSE DATA

... then removed by post-detection signal processing. It was shown that, one can increase the depth-of-field of a 94GHz imager four times its normal depth-of-field [3]. Several other systems have also been developed and discussed in the literature [1], [2]. Some of them use a single-beam system that for ...

High-precision, high-accuracy ultralong-range swept

... drive parameters were adjusted to the particular application and the different configurations demonstrated in this study are shown in Table 1. The MZI path difference was 5 mm, 14 mm, 1 m, and 40 mm for operating points A, B, C, and D, respectively. The sensitivity at 50 kHz imaging speed was 105 dB ...

Techniques to Improve 3D Optical Imaging

... Sensitivity of fluorescence detection can further be improved through a calibration method called normalized transmission fluorescence (NTF) efficiency. Since the sensitivity of fluorescent imaging is limited by autofluorescence, transillumination is used in order to trap the autofluroescent signal ...

cone beam An interview with Henry Schein Dental Director of

... the major developments that allow us to do more. It takes minimal computer power to handle practice management, which are mostly text driven files that are not very large and do not take much power to render to the screen. Imaging is quite different. Twodimensional images can take much more computin ...

ECE457 Fourier Optics Concepts: Linear Systems Theory

... ECE457 Fourier Optics OUT ...

Imaging properties of a metamaterial superlens

... Fig. 2. Furthermore, it turns out that the effect of loss characterized by the imaginary part of ␧ can also be approximated in this equation.11 In the case of Imag(␧ M )⫽0.4, the result is approximately 2.6, indicating a resolution of ⬃␭/3. Taking the loss of natural metal at optical frequencies int ...

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Preclinical imaging

Preclinical imaging is the visualization of living animals for research purposes, such as drug development. Imaging modalities have long been crucial to the researcher in observing changes, either at the organ, tissue, cell, or molecular level, in animals responding to physiological or environmental changes. Imaging modalities that are non-invasive and in vivo have become especially important to study animal models longitudinally. Broadly speaking, these imaging systems can be categorized into primarily morphological/anatomical and primarily molecular imaging techniques. Techniques such as high-frequency micro-ultrasound, magnetic resonance imaging (MRI) and computed tomography (CT) are usually used for anatomical imaging, while optical imaging (fluorescence and bioluminescence), positron emission tomography (PET), and single photon emission computed tomography (SPECT) are usually used for molecular visualizations.These days, many manufacturers provide multi-modal systems combining the advantages of anatomical modalities such as CT and MR with the functional imaging of PET and SPECT. As in the clinical market, common combinations are SPECT/CT, PET/CT and PET/MR.

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Preclinical imaging