Wyniki wyszukiwania - Biblioteka Nauki

1

Pompy Wilo-EMU pracują dla Przemyśla

100%

Moskal P.

Nowoczesne Budownictwo Inżynieryjne

|

2012

|

tom Nr 6

32-34

PL

Głównym źródłem zaopatrzenia mieszkańców Przemyśla w wodę pitną jest San. Ujęcie powierzchniowe już od czasów międzywojennych funkcjonuje w dzielnicy Prałkowce, a w latach 70. XX w. zbudowano na rzece jaz spiętrzający wodę wraz z niezbędnymi urządzeniami wodociągowymi.

2

Innowacyjna powłoka Wilo-Ceram CT redukuje koszty eksploatacyjne w pompach zatapialnych

88%

Moskal P.

Nowoczesne Budownictwo Inżynieryjne

|

2011

|

tom Nr 3

24--25

3

J-PET: nowy Pozytonowy Emisyjny Tomograf zbudowany z plastikowych detektorów

63%

Moskal P. , Kubica-Misztal A.

Inżynier i Fizyk Medyczny

|

2015

|

tom Vol. 4, nr 4

195--198

PL

Jagielloński Pozytonowy Tomograf Emisyjny powstał w oparciu o plastikowe detektory promieniowania na Uniwersytecie Jagiellońskim. Nowatorskie rozwiązanie pozwala na zwiększenie komory diagnostycznej przy jednoczesnym znaczącym obniżeniu kosztów tomografu w stosunku do obecnie produkowanych tomografów PET opartych na nieorganicznych detektorach kryształowych.

4

Baltic Sea Holocene evolution based on OSL and radiocarbon dating : evidence from a sediment core from the Arkona Basin (the southwestern Baltic Sea)

63%

Kostecki R. , Moskal P.

Oceanological and Hydrobiological Studies

|

2017

|

tom Vol. 46, No. 3

294--306

EN

The paper presents the chronology of the Holocene evolution of the Baltic Sea based on the optically stimulated luminescence (OSL) and radiocarbon dating methods applied to a core taken from the Arkona Basin. The dating results were supplemented by grain size and geochemical analysis. The obtained results of OSL and radiocarbon dating enabled the construction of an age-depth model and confirmed the continuous sedimentation since 9900 cal yrs BP. One of the most interesting findings of this study is a clear relationship between the rate of sedimentation and fluctuations in the energy of depositional environment. The analyzed sediment core revealed two sections of different accumulation rates. The bottom section was deposited until 2700 cal yrs BP when the Ancylus Lake and the Littorina Sea were present, characterized by the accumulation rate estimated at around 0.46 mm year-1 and the dynamic sedimentation environment confirmed by grain size parameters. The accumulation rate at the top section deposited during the Post-Littorina Sea stage was estimated at around 1 mm year-1. This stage, characterized by more stable deposition and lower-energy environment conditions, was confirmed by small grain size, symmetric skewness and increasing content of organic matter.

5

Novel detector systems for the Positron Emission Tomography

38%

Moskal P. , Salabura P. , Silarski M. , Smyrski J. , Zdebik J. , Zieliński M.

Bio-Algorithms and Med-Systems

|

2011

|

tom Vol. 7, no. 2

73--78

EN

In this contribution we describe a novel solution for the construction of Positron Emission Tomograph. We present the device allowing for determination of the impact position as well as time and depth of interaction of the annihilation gamma quanta. The device is comprised of scintillation chamber consisting of organic scintillators surrounding the body of the patient. We discuss two possible solutions: (i) the tomograph built out of scintillator strips, and (ii) the tomograph built out of the scintillator plates. The application of the fast scintillators will enable to take ad vantage of the difference between time of the registration of the annihilation quanta. The invented method will permit to use a thick layers of detector material with the possibility of measuring the depth of the gamma quantum interaction (DOI) and the determination of their time of flight (TOF), and will allow for increasing the size of the diagnostic chamber without a significant increase of costs. The method is a subject of two patent applications [1,2] which are based on the techniques used in the particle physics experiments [3,4].

6

Application of WLS strips for position determination in strip PET tomograph based on plastic scintillators

20%

Smyrski J. , Moskal P. , Bednarski T. , Białas P. , Czerwiński E. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Niedźwiecki S. , Pałka M. , Pawlik-Niedźwiecka M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 2

59--63

EN

A method of the determination of a γ-quantum absorption point in a plastic scintillator block using a matrix of wavelength-shifting (WLS) strips is proposed. An application of this method for the improvement of position resolution in newly proposed positron emission tomography (PET) detectors based on plastic scintillators is presented. The method enables to reduce parallax errors in the reconstruction of images, which occurs in the presently used PET scanners.

7

Application of the compress sensing theory for improvement of the TOF resolution in a novel J-PET instrument

20%

Raczyński L. , Moskal P. , Kowalski P. , Wiślicki W. , Bednarski T. , Białas P. , Czerwiński E. , Gajos A. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kozik T. , Krzemień W. , Kubicz E. , Niedźwiecki S. , Pałka M. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Strzelecki A. , Wieczorek A. , Zieliński M. , Zoń N.

Nukleonika

|

2016

|

tom Vol. 61, No. 1

35--39

EN

Nowadays, in positron emission tomography (PET) systems, a time of fl ight (TOF) information is used to improve the image reconstruction process. In TOF-PET, fast detectors are able to measure the difference in the arrival time of the two gamma rays, with the precision enabling to shorten signifi cantly a range along the line-of-response (LOR) where the annihilation occurred. In the new concept, called J-PET scanner, gamma rays are detected in plastic scintillators. In a single strip of J-PET system, time values are obtained by probing signals in the amplitude domain. Owing to compressive sensing (CS) theory, information about the shape and amplitude of the signals is recovered. In this paper, we demonstrate that based on the acquired signals parameters, a better signal normalization may be provided in order to improve the TOF resolution. The procedure was tested using large sample of data registered by a dedicated detection setup enabling sampling of signals with 50-ps intervals. Experimental setup provided irradiation of a chosen position in the plastic scintillator strip with annihilation gamma quanta.

8

Computing support for advanced medical data analysis and imaging

20%

Wiślicki W. , Bednarski T. , Białas P. , Czerwiński E. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Moskal P. , Niedźwiecki S. , Pałka M. , Pawlik-Niedźwiecka M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Strzelecki A. , Wieczorek A. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 2

53--58

EN

We discuss computing issues for data analysis and image reconstruction of positron emission tomography based on time-of-flight medical scanner or other medical scanning devices producing large volumes of data. Service architecture based on grid and cloud concepts for distributed processing is proposed and critically discussed.

9

Plastic scintillators for positron emission tomography obtained by the bulk polymerization method

20%

Kapłon Ł. , Kochanowski A. , Molenda M. , Moskal P. , Wieczorek A. , Bednarski T. , Białas P. , Czerwiński E. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Niedźwiecki S. , Pałka M. , Pawlik M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

27--31

EN

This paper describes three methods regarding the production of plastic scintillators. One method appears to be suitable for the manufacturing of plastic scintillators, revealing properties which fulfill the requirements of novel positron emission tomography scanners based on plastic scintillators. The key parameters of the manufacturing process are determined and discussed.

10

PALS investigations of free volumes thermal expansion of J-PET plastic scintillator synthesized in polystyrene matrix

20%

Wieczorek A. , Zgardzińska B. , Jasińska B. , Gorgol M. , Bednarski T. , Białas P. , Czerwiński E. , Gajos A. , Kamińska D. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowalski P. , Kozik T. , Krzemień W. , Kubicz E. , Niedźwiecki S. , Pałka M. , Raczyński L. , Rudy Z. , Rundel O. , Sharma N. G. , Silarski M. , Silarski A. , Strzelecki A. , Wiślicki W. , Zieliński M. , Moskal P.

Nukleonika

|

2015

|

tom Vol. 60, No. 4, part 1

777--781

EN

The polystyrene doped with 2,5-diphenyloxazole as a primary fluor and 2-(4-styrylphenyl)benzoxazole as a wavelength shifter prepared as a plastic scintillator was investigated using positronium probe in wide range of temperatures from 123 to 423 K. Three structural transitions at 260, 283, and 370 K were found in the material. In the o-Ps intensity dependence on temperature, the significant hysteresis is observed. Heated to 370 K, the material exhibits the o-Ps intensity variations in time.

11

3D PET image reconstruction based on the maximum likelihood estimation method (MLEM) algorithm

20%

Słomski A. , Rudy Z. , Bednarski T. , Białas P. , Czerwiński E. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Moskal P. , Niedźwiecki S. , Pałka M. , Pawlik M. , Raczyński L. , Salabura P. , Gupta-Sharma N. , Silarski M. , Smyrski J. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

1--7

EN

A positron emission tomography (PET) scan does not measure an image directly. Instead, a PET scan measures a sinogram at the boundary of the field-of-view that consists of measurements of the sums of all the counts along the lines connecting the two detectors. Because there is a multitude of detectors built in a typical PET structure, there are many possible detector pairs that pertain to the measurement. The problem is how to turn this measurement into an image (this is called imaging). Significant improvement in PET image quality was achieved with the introduction of iterative reconstruction techniques. This was realized approximately 20 years ago (with the advent of new powerful computing processors). However, three-dimensional imaging still remains a challenge. The purpose of the image reconstruction algorithm is to process this imperfect count data for a large number (many millions) of lines of response and millions of detected photons to produce an image showing the distribution of the labeled molecules in space.

12

A novel method for calibration and monitoring of time synchronization of TOF-PET scanners by means of cosmic rays

20%

Silarski M. , Czerwiński E. , Bednarski T. , Moskal P. , Białas P. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Niedźwiecki S. , Pałka M. , Pawlik M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Słomski A. , Smyrski J. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

19--25

EN

All of the present methods for calibration and monitoring of time-of-flight positron emission tomography (TOF-PET) scanner detectors utilize radioactive isotopes, such as 22Na or 68Ge, which are placed or rotate inside the scanner. In this article, we describe a novel method based on the cosmic rays application to the PET calibration and monitoring methods. The concept allows to overcome many of the drawbacks of the present methods and it is well suited for newly developed TOF-PET scanners with a large longitudinal field of view. The method enables also the monitoring of the quality of the scintillator materials and in general allows for the continuous quality assurance of the PET detector performance.

13

Trigger-less and reconfigurable data acquisition system for positron emission tomography

20%

Korcyl G. , Moskal P. , Bednarski T. , Białas P. , Czerwiński E. , Kapłon Ł. , Kochanowski A. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Niedźwiecki S. , Pałka M. , Pawlik M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

37--40

EN

This article is focused on data acquisition system (DAQ) designed especially to be used in positron emission tomography (PET) or single-photon emission computed tomography. The system allows for continuous registration of analog signals during measurement. It has been designed to optimize registration and processing of the information carried by signals from the detector system in PET scanner. The processing does not require any rejection of data with a trigger system. The proposed system possesses also an ability to implement various data analysis algorithms that can be performed in real time during data collection.

14

Database and data structure for the novel TOF-PET detector developed for the J-PET project

20%

Czerwiński E. , Zieliński M. , Bednarski T. , Białas P. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Kubicz E. , Molenda M. , Moskal P. , Niedźwiecki S. , Pałka M. , Pawlik-Niedźwiecka M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Strzelecki A. , Wieczorek A. , Wiślicki W. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 2

79--83

EN

The complexity of the hardware and the amount of data collected during the PET imaging process require application of modern methods of efficient data organization and processing. In this article, we will discuss the data structures and the flow of collected data from the novel TOF-PET medical scanner that is being developed at the Jagiellonian University. The developed data format reflects the registration process of the γ quanta emitted from positron electron annihilation, front-end electronic structure, and required input information for the image reconstruction. In addition, the system database fulfills possible demands of the evolving J-PET project.

15

Searches for discrete symmetries violation in ortho-positronium decay using the J-PET detector

20%

Kamińska D. , Gajos A. , Czerwiński E. , Bednarski T. , Białas P. , Gorgol M. , Jasińska B. , Kapłon Ł. , Korcyl G. , Kowalski P. , Kozik T. , Krzemień W. , Kubicz E. , Niedźwiecki S. , Pałka M. , Raczyński L. , Rudy Z. , Rundel O. , Sharma N. G. , Silarski M. , Słomski A. , Strzelecki A. , Wieczorek A. , Wiślicki W. , Zieliński M. , Zgardzińska B. , Moskal P.

Nukleonika

|

2015

|

tom Vol. 60, No. 4, part 1

729--732

EN

In this paper, we present prospects for using the Jagiellonian positron emission tomograph (J-PET) detector to search for discrete symmetries violations in a purely leptonic system of the positronium atom. We discuss tests of CP and CPT symmetries by means of ortho-positronium decays into three photons. No zero expectation values for chosen correlations between ortho-positronium spin and momentum vectors of photons would imply the existence of physics phenomena beyond the standard model. Previous measurements resulted in violation amplitude parameters for CP and CPT symmetries consistent with zero, with an uncertainty of about 10−3. The J-PET detector allows to determine those values with better precision, thanks to the unique time and angular resolution combined with a high geometrical acceptance. Achieving the aforementioned is possible because of the application of polymer scintillators instead of crystals as detectors of annihilation quanta.

16

Reconstruction of hit time and hit position of annihilation quanta in the J-PET detector using the Mahalanobis distance

20%

Sharma N. G. , Silarski M. , Bednarski T. , Białas P. , Czerwiński E. , Gajos A. , Gorgol M. , Jasińska B. , Kamińska D. , Kapłon Ł. , Korcyl G. , Kowalski P. , Kozik T. , Krzemień W. , Kubicz E. , Niedźwiecki S. , Pałka M. , Raczyński L. , Rudy Z. , Rundel O. , Słomski A. , Strzelecki A. , Wieczorek A. , Wiślicki W. , Zieliński M. , Zgardzińska B. , Moskal P.

Nukleonika

|

2015

|

tom Vol. 60, No. 4, part 1

765--769

EN

The J-PET detector being developed at the Jagiellonian University is a positron emission tomograph composed of the long strips of polymer scintillators. At the same time, it is a detector system that will be used for studies of the decays of positronium atoms. The shape of photomultiplier signals depends on the hit time and hit position of the gamma quantum. In order to take advantage of this fact, a dedicated sampling front-end electronics that enables to sample signals in voltage domain with the time precision of about 20 ps and novel reconstruction method based on the comparison of examined signal with the model signals stored in the library has been developed. As a measure of the similarity, we use the Mahalanobis distance. The achievable position and time resolution depend on the number and values of the threshold levels at which the signal is sampled. A reconstruction method as well as preliminary results are presented and discussed.

17

A novel method based solely on field programmable gate array (FPGA) units enabling measurement of time and charge of analog signals in positron emission tomography (PET)

20%

Pałka M. , Moskal P. , Bednarski T. , Białas P. , Czerwiński E. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Niedźwiecki S. , Pawlik M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

41--45

EN

This article presents an application of a novel technique for precise measurements of time and charge based solely on a field programmable gate array (FPGA) device for positron emission tomography (PET). The described approach simplifies electronic circuits, reduces the power consumption, lowers costs, merges front-end electronics with digital electronics, and also makes more compact final design. Furthermore, it allows to measure time when analog signals cross a reference voltage at different threshold levels with a very high precision of ~15 ps (rms) and thus enables sampling of signals in a voltage domain.

18

J-PET analysis framework for the prototype TOF-PET detector

20%

Krzemień W. , Silarski M. , Stoła K. , Trybek D. , Bednarski T. , Białas P. , Czerwiński E. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowal J. , Kowalski P. , Kozik T. , Molenda M. , Moskal P. , Niedźwiecki S. , Pałka M. , Pawlik M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Słomski A. , Smyrski J. , Strzelecki A. , Wiślicki W. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

33--36

EN

Novel time-of-flight positron emission tomography (TOF-PET) scanner solutions demand, apart from the state-of-the-art detectors, software for fast processing of the gathered data, monitoring of the whole scanner, and reconstruction of the PET image. In this article, we present an analysis framework for the novel STRIP-PET scanner developed by the J-PET collaboration in the Institute of Physics of the Jagiellonian University. This software is based on the ROOT package used in many particle physics experiments.

19

Processing optimization with parallel computing for the J-PET scanner

17%

Krzemień W. , Bała M. , Bednarski T. , Białas P. , Czerwiński E. , Gajos A. , Gorgol M. , Jasińska B. , Kamińska D. , Kapłon Ł. , Korcyl G. , Kowalski P. , Kozik T. , Kubicz E. , Niedźwiecki S. , Pałka M. , Raczyński L. , Rudy Z. , Rundel O. , Sharma N. G. , Silarski M. , Słomski A. , Stola K. , Strzelecki A. , Trybek D. , Wieczorek A. , Wiślicki W. , Zieliński M. , Zgardzińska B. , Moskal P.

Nukleonika

|

2015

|

tom Vol. 60, No. 4, part 1

745--748

EN

The Jagiellonian Positron Emission Tomograph (J-PET) collaboration is developing a prototype time of flight (TOF)-positron emission tomograph (PET) detector based on long polymer scintillators. This novel approach exploits the excellent time properties of the plastic scintillators, which permit very precise time measurements. The very fast fi eld programmable gate array (FPGA)-based front-end electronics and the data acquisition system, as well as low- and high-level reconstruction algorithms were specially developed to be used with the J-PET scanner. The TOF-PET data processing and reconstruction are time and resource demanding operations, especially in the case of a large acceptance detector that works in triggerless data acquisition mode. In this article, we discuss the parallel computing methods applied to optimize the data processing for the J-PET detector. We begin with general concepts of parallel computing and then we discuss several applications of those techniques in the J-PET data processing.

20

List-mode reconstruction in 2D strip PET

17%

Białas P. , Kowal J. , Strzelecki A. , Bednarski T. , Czerwiński E. , Giergiel K. , Kapłon Ł. , Kochanowski A. , Korcyl G. , Kowalski P. , Kozik T. , Krzemień W. , Molenda M. , Moskal I. , Moskal P. , Niedźwiecki S. , Pałka M. , Pawlik M. , Raczyński L. , Rudy Z. , Salabura P. , Gupta-Sharma N. , Silarski M. , Słomski A. , Smyrski J. , Szymański K. , Wiślicki W. , Witkowski P. , Zieliński M. , Zoń N.

Bio-Algorithms and Med-Systems

|

2014

|

tom Vol. 10, no. 1

9--12

EN

Using a theory of list-mode maximum likelihood expectation-maximization (MLEM) algorithm, in this contribution, we present a derivation of the system response kernel for a novel positron emission tomography (PET) detector based on plastic scintillators.