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1481
In recent years, there has been a growing interest in the development of nanoscale magnetic and thermal characterization tools in order to address rapidly evolving fields, such as nanomagnetism, spintronics and energy-efficient computing. The requirements from these tools include high sensitivity and...

In recent years, there has been a growing interest in the development of nanoscale magnetic and thermal characterization tools in order to address rapidly evolving fields, such as nanomagnetism, spintronics and energy-efficient computing. The requirements from these tools include high sensitivity and high spatial resolution to enable local detection and accurate measurements of extremely low signals. For example, the energy dissipation mechanism in quantum systems is related to preservation of quantum information, which is of particular importance in the field of quantum computing. Available local magnetic imaging methods suffer from low sensitivity and in some cases, low spatial resolution. On the other hand, energy dissipation is not a readily measurable quantity on the nanometer scale and existing thermal imaging methods are not sensitive enough for studying quantum systems and are unsuitable for low temperature operation.

A novel sensor device comprising a nanoscale superconducting quantum interference device (SQUID) was developed by Prof. Zeldov at the Weizmann Institute of Science. The fabrication method enables the miniaturization of the sensor to an effective diameter of below 50 nm and its integration onto the apex of a very sharp tip that is ideally suited for scanning probe microscopy. The extremely small size of the SQUID-on-tip sensor and the ability to approach very close to the sample surface result in nano-metric spatial resolution and a very sensitivity.

Applications


·         Scanning probe microscopy for magnetic and thermal characterization

·         Inspection and probing equipment for quantum computing


Advantages


  • Simple fabrication process

  • High field sensitivity and bandwidth

  • Nanoscale sensors (down to 46 nm in diameter)

  • Tip-sample distance can be as close as a few nanometers


Technology's Essence


A SQUID is a very sensitive magnetometer used to measure extremely subtle magnetic fields, based on superconducting loops. The present invention is a novel sensor device, based on a nanoscale two-junction or multi-junction SQUIDs fabricated on the edge of a sharp tip in a three dimensional geometric configuration. In such a setup, the SQUID can approach the sample to a distance of few nanometers, as opposed to the conventional planar SQUIDs, which results in an extremely high sensitivity.

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  • Prof. Eli Zeldov
1529
We present an efficient and robust broadband crystal optical conversion device. Various applications of laser optics require tunable laser sources. Currently, most frequency conversion devices rely on a single non-linear crystal, which is either temperature or angle tuned to enhance efficiency. This...

We present an efficient and robust broadband crystal optical conversion device. Various applications of laser optics require tunable laser sources. Currently, most frequency conversion devices rely on a single non-linear crystal, which is either temperature or angle tuned to enhance efficiency. This results only in a narrow efficient spectral band of conversion. Other techniques such as periodic quasi-phase matching result in improved efficiencies but still within a narrow predetermined band. Random quasi-phase matching results in improved bandwidth but in a significant reduction in efficiency. This new device enables ultra-broadband wavelength conversion while maintaining high efficiency.

Applications


  • Laser optics industry
  • Frequency convertor for broadband signals
  • Generation of ultrafast visible radiation
  • Pulse selection.

Advantages


  • 90% efficiency of conversion process.
  • Simple and compact
  • Insensitive to the deviations in alignment, no dependence of the angle incidence beam or of temperature
  • Frequency converter of both broadband signals and ultra-short pulses.

Technology's Essence


This device is based on a new method of adiabatic wavelength conversion. The device works whereby a strong narrow-band pump is introduced into the crystal along with a weaker pulse to be converted. This conversion is realized in a quasi-phase matched nonlinear crystal, where the period is tuned adiabatically from strong negative phase-mismatch to strong positive phase-mismatch (or vice versa). This results in the efficient transformation of the weaker pulse.

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  • Prof. Yaron Silberberg
1369
A simple, single-step biochip platform for synthesis of biomolecules. Biochip technology is used today in measuring passive probe-target interactions i.e. measurement of the abundance of specific biomolecules). This technology can now be extended to include complex and cascaded activities on the chip...

A simple, single-step biochip platform for synthesis of biomolecules.

Biochip technology is used today in measuring passive probe-target interactions i.e. measurement of the abundance of specific biomolecules). This technology can now be extended to include complex and cascaded activities on the chip. The present immobilization approaches (based on UV photography) have been essentially limited to short single stranded DNA probes and have not been developed for entire genes or other biochemical functions. Furthermore, most biochips are assembled in a multi-step process that requires expertise in surface chemistry in order to obtain reproducibility and robustness. As a result, light-directed immobilization of molecules on biochips is not widespread and is not easily accessible for research and technology development. The present invention enables, in a simple manner, to immobilize different biomolecules anywhere on the chip to submicron resolution through selective exposure of the monolayer to UV light.

 

Applications


  • Light-directed immobilization of a variety of different biomolecules (e.g. DNA, antibodies, enzymes and peptides)
  • On-chip protein biosynthesis from immobilized genes
  • Design and layout of on-chip traps for proteins from crude cell extract
  • Lab-on-a-chip that provides a general use biochip technology

Advantages


  • Enabling the use of long DNA molecules (whole genes)
  • Robust and simple performance without the need for proficiency in materials science and surface chemistry
  • On-chip protein synthesis with high efficiency, minimal non-specific activity, and a wide dynamic range

 


Technology's Essence


This lab-on-a-chip technology (i.e. a technology that enables to perform laboratory operations on a small scale) is based on a newly synthesized molecule termed daisy that combines three parts all-in-one: a tail and head connected by a backbone. Selective exposure of daisy monolayer to UV light through a mask (photolithography) reveals the surface for chemical binding of a variety of biomolecules. Using this technology it is possible to immobilize different biomolecules anywhere on the chip to submicron resolution. By immobilizing whole genes, thus enabling cell-free biosynthesis of proteins, daisy technology takes the lab-on-a-chip concept to the next level. Daisy biochip technology holds a promise in proteomics, diagnostics and therapeutics.

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  • Prof. Roy Bar-Ziv
1166
A series of monoclonal antibodies for monitoring hormone and drug additives in animals grown for the food industry. These include mAbs for peptide hormones, steroid hormones, drugs, leukotrienes, isoflavones, and veterinary drugs.

A series of monoclonal antibodies for monitoring hormone and drug additives in animals grown for the food industry. These include mAbs for peptide hormones, steroid hormones, drugs, leukotrienes, isoflavones, and veterinary drugs.

Applications


Monitoring hormone and drug additives in food providing animals for veterinary use and for the food industry.

Technology's Essence


Researchers at the Weizmann Institute of Science have developed a series of mAb against peptide and steroid hormones, isoflavones, and human and veterinary drugs. These antibodies are particularly valuable for monitoring hormone and drug additives in food providing animals. The mAb are available for diagnostics, research, and therapeutics.

The following mAb are available for licensing:

(Clones marked with * are available for diagnostic and therapeutic use only).

Peptide Hormones:
LH: 4F10
bFSH: 1G12*, 1H9, 1H7
FSH: 6H6
bHCG: 1D5
bHCG+: 1C7 3F11
HGH: 1C12*, 1C4*, 5E9, 4E12, 5C3, 1C5, 6G3, 5E6, 2C12

Steroid Hormones:
progesterone-11a-HS 1E11*
progesterone-7a-CET 2H4
Estrone-3-glucuronide 8A3
Testosterone-3-CMO 5A4
Testosterone-3-CMO 5F2*
Estradiol-6-CMO 8D9*

Anti-idiotypic antibodies to anti-steroids:
betatypic anti-anti-testosterone 5A4 8G9
betatypic anti-progesterone 2H4 15F11
betatypic anti-anti-estrone-3-glucuronide 8A3 7C1
alphatypic anti-progesterone 2H4 2E11
betatypic anti-anti-estrone-3-glucuronide 8A3 11C1

Drugs
Digoxin 10F10
RU-486* 8B6*
Buserelin 8B4
Medroxy-progesterone-acetate* 1F5*

Leukotrienes
LTC4* 6E7

Biotin
Biotin-BSA F1

Isoflavones
Daidzein 4E4
Daidzein/daidzin/genistin 2F11
Estrone-3-glucuronide 8A3
Genistein/biochanin A 10D8
Genistein/genistin/daidzin 6E8
Betatypic anti-anti-genistein 10D8

Veterinary drugs
Sulfamethazine (SMZ) 21C7
Betatypic anti-SMZ 12E12
4-chloro-androstenedione 14H2
Virginamycin 486
Spiramycin 110
Betatypic anti-anti-spiramycin 133

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  • Dr. Fortune Kohen
1392
A catalytic based reaction for the treatment of industrial waste water. Millions of tons of organic chemical compounds - including solvents, petrochemicals, agrochemicals, and pharmaceuticals - are produced every year by a wide variety of chemical industries. Two immediate problems arise: 1. Industrial...

A catalytic based reaction for the treatment of industrial waste water. Millions of tons of organic chemical compounds - including solvents, petrochemicals, agrochemicals, and pharmaceuticals - are produced every year by a wide variety of chemical industries. Two immediate problems arise: 1. Industrial production of these chemicals and/or other products leads to effluent streams - highly toxic, contaminated aqueous solutions - from factories. These effluents must be treated prior to release of the water back into the environment. 2. Following use, these chemicals (e.g., agrochemicals, pharmaceuticals) become serious pollutants as they eventually find their way into the soil, sediment, and surface and/or groundwater environments. Current treatment methods are severely limited. Treatment of effluent streams by, e.g., filtration, photocatalysis, or bioreactors is often highly ineffective - the waste compounds not being easily captured, degraded or transformed - and/or prohibitively expensive.

Applications


  • Detoxification of industrial effluents, especially from petrochemical, agrochemical and pharmaceutical industries 
  • Waste water decontamination 
  • In situ and ex situ remediation of water polluted by organic and other contaminants

Advantages


  • Cost efficient
  • Quick

Technology's Essence


Researchers at the Weizmann Institute of Science have developed a new process for degradation and/or treatment of practically any organic contaminant in aqueous solutions under oxidizing (aerobic) conditions. A suite of catalytic materials has been developed which allows both in situ and ex situ remediation of polluted water by oxidative chemical degradation of contaminants. The technology eliminates or reduces a broad range of water pollutants - industrial organic solvents, petrochemicals, agrochemicals and pharmaceuticals (e.g., endocrine disruptors such as antiobiotics and hormones) - and is particularly effective for treating concentrated industrial effluents, under technically convenient conditions. The reaction products consist essentially of benign materials.

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  • Prof. Brian Berkowitz
1503
Application of Ureides-class compounds protects plants from stress related senescence, effectively extending the shelf-life of vegetables, fruit, leafy greens, cut branches and flowers. Plants suffer damage from factors such as oxidative stress, premature senescence and chlorophyll degradation. All of...

Application of Ureides-class compounds protects plants from stress related senescence, effectively extending the shelf-life of vegetables, fruit, leafy greens, cut branches and flowers.

Plants suffer damage from factors such as oxidative stress, premature senescence and chlorophyll degradation. All of the above can impact the freshness of produce from harvest to end-consumer. Researchers at the Weizmann Institute found that under certain stress conditions model plants produce Ureides, shown to have a protective role. Unexpectedly, this protection can also be achieved by the exogenous application to plants or plant parts post-harvest.

This innovative technique to preserve and prolong the shelf-life of fresh produce is clean, organic and cost-effective. In addition, engineered strains with altered Ureides metabolism can prove more resistant to stress related senescence.

Applications


  • Post-harvest protection of produce via
  • Exogenous application (spray on leaves, add to roots etc.).
  • Incorporation in packaging (e.g. embedded in plastic film).

Advantages


  • Treatment of both aging and light-deprivation in plants
  • Readily available and easily applied, does not require expertise to protect produce
  • Organic, clean, biodegradable materials.

Technology's Essence


Prof. Robert Fluhr and his team found that in wild-type plants conditions of extended darkness or increasing leaf age caused induction of transcripts related to purine catabolism, resulting in marked accumulation of Ureides. In contrast, Arabidopsis mutants of XDH, Atxdh1, accumulated the Ureides precursor (Xanthine) and showed premature senescence symptoms such as enhanced chlorophyll degradation, extensive cell death and upregulation of senescence-related transcripts.

The level of plant reactive oxygen species (ROS) and mortality can be attenuated by the addition of Ureides, suggesting that these metabolites can act as scavengers of ROS. The results highlighted that the regulation of Ureides levels by Atxdh1 has implications for optimal plant survival during nutrient remobilization, such as occurs during normal growth, dark stress and senescence.

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  • Prof. Robert Fluhr
1263
"Spin-optics", a new method for controlling electric current by manipulating electron spin-orbit interaction, can be used in semiconductors to achieve a wider spectrum of functionality similar to that achieved with polarized light. This method may be used for ultra-fast spin-based transistors.

"Spin-optics", a new method for controlling electric current by manipulating electron spin-orbit interaction, can be used in semiconductors to achieve a wider spectrum of functionality similar to that achieved with polarized light. This method may be used for ultra-fast spin-based transistors.

Applications


  • Ultra-fast spin-based field effect transistor (spin-FET) for communications, computing, and defense applications.
  • Nano- and micro-electronic semiconductor devices for polarizing, filtering, switching, guiding, storing, spin detecting and focusing the current carriers.
  • Devices for signal splitting and wide-angle sparging of electrons.

  • Advantages


    • Use of Nou-magnetic semiconductor materials
    • Creation of spin polarize current

    Technology's Essence


    Researchers at the Weizmann Institute of Science have discovered a novel method for controlling and manipulating the propagation of electrons in semiconductors with spin-orbit interaction by acting on the spin polarization of the electrons. It was found that when the spin-orbit coupling strength in the semiconductor is locally varying, electrons of different spin polarizations deflect by different angles at the region of the spin-orbit inhomogeneity. The spin-orbit coupling can be tuned locally and dynamically by applying bias voltage with gates. With suitable angle of incidence of electrons, one spin polarization either can pass through the region of inhomogeneity or totally reflected, in analogy to the total internal reflection phenomenon in optics. In fact, this new approach to spintronics is similar to manipulating polarized light in optical technologies. With this approach (termed "spin-optics") it is possible to manipulate the current carriers in semiconductors (electrons or holes) to achieve the whole spectrum of functionality used in optics of the polarized light, e.g., spin polarizing, spin filtering, switching, guiding as well as spin-based field effect transistor (spin-FET).

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    • Prof. Alexander Finkelstein
    358
    Escherichia coli UTL2 Description: A "leaky" strain of E. coli, which is significantly more susceptible to cytotoxic agents. UTL2 holds a mutation in the galU gene causing an impaired outer membrane. Reference:  B?j? O, Bibi E. 1996. Functional expression of mouse Mdr1 in an outer membrane...

    Escherichia coli UTL2

    Description: A "leaky" strain of E. coli, which is significantly more susceptible to cytotoxic agents. UTL2 holds a mutation in the galU gene causing an impaired outer membrane.

    Reference:  B?j? O, Bibi E. 1996. Functional expression of mouse Mdr1 in an outer membrane permeability mutant of Escherichia coli. Proc Natl Acad Sci U S A 93(12):5969-74.

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    • Prof. Eitan Bibi
    1441
    New protein as a target to treat B cell-related cancer.Chronic lymphocytic leukemia (CLL), a malignant disease characterized by the accumulation of B lymphocytes in the blood, lymphoid organs, and bone marrow, is the second most common type of leukemia in adults, accounting for about 7,000 new cases of...

    New protein as a target to treat B cell-related cancer.
    Chronic lymphocytic leukemia (CLL), a malignant disease characterized by the accumulation of B lymphocytes in the blood, lymphoid organs, and bone marrow, is the second most common type of leukemia in adults, accounting for about 7,000 new cases of leukemia each year. Presently, there is no cure for CLL, and the overall goal of leukemia treatment is to bring about a remission. Therefore, identifying new proteins that may serve as a target for inducing cell death in the malignant cells is highly desirable. The present technology identifies a new regulator protein that is essential for the survival of CLL cells.

    Applications


    • Treatment of CLL, as well as other B cell-related cancers (e.g. gastric cancer and renal cell carcinoma), by blocking CD84 activity
    • Diagnosis of CLL

    Advantages


    • Very specific to malignant B cells
    • Diagnosis, and therefore treatment, can be made at early stages of the disease

     


    Technology's Essence


    B cells taken from CLL patients have a high level of the protein CD84. Stimulation of CD84 upregulates the survival of B-CLL. However, inhibition of CD84 activity with a blocking antibody downregulates the expression of another protein which controls B-CLL survival, thus inducing cell death. Therefore, the present invention reveals CD84 as a regulator of B-CLL survival

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    • Prof. Idit Shachar
    1507
    One-step synthesis of primary amines from alcohols and ammonia under mild conditions.Amines are widely used in the production of numerous products for multiple industries and their use is expected to increase. Global amines market is expected to reach over $14 billion by 2020, with an average annual...

    One-step synthesis of primary amines from alcohols and ammonia under mild conditions.
    Amines are widely used in the production of numerous products for multiple industries and their use is expected to increase. Global amines market is expected to reach over $14 billion by 2020, with an average annual growth of 3.5%.
    Primary amines are most useful in the larger markets of ethanolamines and fatty amines.
    Current synthetic methods require harsh reaction conditions, are non-specific and generate toxic waste. The outlined technology utilizes a novel catalyst to synthesize primary amines in a simple single-step fashion directly from alcohols and ammonia.

    Applications


    • Production of primary amines for numerous industries (agrochemicals, surfactants, personal care, water treatment, fine chemicals, plastics, dyes, pigments, food additives and pharmaceuticals)

    Advantages


    • Mild reaction conditions
    • Single step synthesis
    • High yields
    • No solvent required
    • No toxic reagents or by-products
    • Ecologically and economically beneficial

    Technology's Essence


    Amines are a very important family of compounds used in multiple industries. The presented technology uses selective catalytic synthesis of primary amines from primary alcohols and ammonia. This simple, one-step, easily applicable reaction delivers primary amines in good yields, in addition to valuable environmental and economic advantages.

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    • Prof. David Milstein
    1266
    Fast cross-sectioning using multiphoton microscope.  The conventionally used laser-scanning microscopy, confocal and multiphoton microscopy, although being capable of performing optical sectioning, requires a long image acquisition time, tens of milliseconds per section in current commercial systems,...

    Fast cross-sectioning using multiphoton microscope.  The conventionally used laser-scanning microscopy, confocal and multiphoton microscopy, although being capable of performing optical sectioning, requires a long image acquisition time, tens of milliseconds per section in current commercial systems, due to the scanning process. The field of confocal microscopy relies on the idea of point-by-point illumination of a sample and use mechanical scanning in order to collect an image. Multiphoton microscopes offer a different mechanism for optical sectioning and the need for rejecting out-of-focus scattering is practically eliminated. However, the process is efficient only when the peak intensity of the illuminating light is high. Thus there is a growing need to facilitate the multiphoton microscopy imaging of a sample by providing a novel illumination configuration and method of its operation.

    Depth-resolved microscopy has been, for decades, practically synonymous with laser-scanning microscopy. The technique of the present invention provides for full-frame depth-resolved microscopy (or material processing), using an extremely simple setup as well as standard components, aiming at eliminating mechanical scanning across the sample thus making the image acquisition much faster.

     

    Applications


    • Optical system for use in a multi-photon microscope.
    • Material processing, e.g. simultaneous depth-resolved modification of a transparent substrate by femtosecond radiation.

    Advantages


    • The present invention provides for fast imaging/processing of a sample without scanning.
    • The temporal profile of the pulse remains unchanged as it propagates through the sample.
    • Single-shot depth resolved microscopy is able to capture extremely rapid dynamics, up to the nanosecond regime.
    • The setup enables full-frame video-rate fluorescence lifetime imaging, simply by gating the CCD intensifier.
    • Enables utilization of structure illumination microscopy.
    • Can be used with practically any multiphoton process.

    Technology's Essence


    The present invention provides the ability for illuminating a region of a sample with dimensions many orders of magnitude larger than a diffraction-limited spot of the imaging lens arrangement used in the microscope. Using this method, full-frame depth-resolved microscopy can be achieved using an extremely simple setup and standard components. the proposed microscope utilizes a pulse manipulator arrangement including a temporal pulse manipulator configured to define a surface, which extends perpendicular to the optical axis of a microscope in the front focal plane of an imaging lens arrangement, and which is patterned to affect trajectories of light components of the input short pulse impinging onto different points of this surface to direct these light components along different optical paths.

    This novel invention is not limited to imaging techniques in general and to microscopy in particular and can also be used for material processing.

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    • Prof. Yaron Silberberg
    1033
    A novel diagnostic test to identify individuals with increased risk of lung cancer. Lung cancer is the number one killer among cancers, with 160,000 deaths/year in the USA and 1.6 million/year worldwide. Early detection of lung cancer increases 5-year survival rate from 4% to 54%. Moreover, the...

    A novel diagnostic test to identify individuals with increased risk of lung cancer.

    Lung cancer is the number one killer among cancers, with 160,000 deaths/year in the USA and 1.6 million/year worldwide. Early detection of lung cancer increases 5-year survival rate from 4% to 54%. Moreover, the National Lung Cancer Trial (NLST) showed that early detection of lung cancer by low-dose CT reduces mortality by at least 20%. Despite recommendations for low-dose CT screening for heavy smokers fulfilling the NLST criteria, compliance is low. In addition, 80 million smokers and ex-smokers in the US who do not fulfil NLST risk criteria have no recommended solution.

    The MyRepair test fulfils this unmet medical need by providing a quantitative prediction of lung cancer risk using a simple blood test. The test is based on a personalized measurement of the patient’s DNA repair capacity, a mechanism which is highly connected to the onset of cancer. Therefore, the MyRepair technology can potentially increase early detection of lung cancer and thus save lives.

     

    Applications


    A novel diagnostic test to identify individuals with increased risk of lung cancer


    Advantages


    ·         Simplicity – MyRepair is based on a simple, cost-effective blood test.

    ·         Accessibility – Compared to low-dose CT which requires specific equipment, the MyRepair test can be easily integrated in general diagnostic labs and therefore may be more accessible to a larger portion of the population.

    ·         Additional applications – Since the test is based on measuring personalized DNA repair mechanism, it can be adopted in the future for the diagnosis of additional cancer types and DNA repair related diseases.


    Technology's Essence


    Based on the strong and well documented connection between impaired capacity for DNA repair and onset of cancer, the Livneh lab invented the MyRepair Test, a method for predicting lung cancer risk, based on measuring activity of 3 DNA repair enzymes.

    Combining enzyme activities with experimental risk estimates generated MyRepair Score, which measures personalized DNA repair capacity of tested subjects.

    An epidemiological/clinical study performed in Israel, further validated in an independent UK study, demonstrated that lung cancer patients have lower MyRepair Score than healthy people. In addition, subjects who test MyRepair-positive have an 85-fold higher risk to develop lung cancer compared to the general population.

    Low MyRepair Score is a risk factor independent of smoking, and of comparable magnitude, indicating that it can be a prognostic tool for smokers, ex-smokers, and non-smokers.

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    • Prof. Zvi Livneh
    1461
    Bidirectional Similarity offers a new approach to summarization of visual data (images and video) based on optimization of well defined similarity measure. Common visual summarization methods (mainly scaling and cropping) suffer from significant deficiencies related to image quality and loss of...

    Bidirectional Similarity offers a new approach to summarization of visual data (images and video) based on optimization of well defined similarity measure.

    Common visual summarization methods (mainly scaling and cropping) suffer from significant deficiencies related to image quality and loss of important data. Many attempts have been made to overcome these problems, however, success was very limited and neither has become commercially applicable.

    Using an optimization problem approach and state-of-the-art algorithms, our method provides superior summarization of visual data as well as a measure to determine similarity, which together provides a basis for a wide range of applications in image and video processing.

    Applications


    The technology can be utilized in any application where an image size is changed or were similarity of images is important. Sample applications include:

    • Image processing software (as an added-on feature)

    • Resizing software

    • Creation of Thumbnails

    • Adjustment of images to different screen sizes (TV-cellular etc.)

    • Optimization of space-time patches in video processing

    • Image montages

    • Automatic image & video cropping

    • Images synthesis, photo reshuffling and many more


    Advantages


    While Bidirectional Similarity summarization will not replace existing technologies in all applications, it enjoys significant advantages that will offer better results in many of them. Among its advantages, the Bidirectional Similarity summarization:

    • Provides better resolution and in many cases reduces distortion compared to scaling
    • Reduces (or avoids) loss of important data compared to cropping
    • Allows importance-based summarization even when important information is widespread and hard to define
    • Uses quantitative objective similarity measure
    • Offers a generic tool for different image processing applications (synthesis, montage, reshuffling etc.)

    Technology's Essence


    Bidirectional Similarity Summarization is a patent-pending image and video processing method, which maximizes “completeness” and “coherence” between images and videos, using a measure for quantifying how “good” a visual summary is.

    The algorithm uses and iterative process, gradually reducing the image size, while keeping all source patches in the target image, without introducing visual artifacts that are not in the input data. Using a Similarity Index, the algorithm identifies redundant information and compromise the “less important” data while generating the required target image or video.

    The Similarity Index, which stands in the heart of the Bidirectional Similarity summarization algorithm, can be utilized by its own, as an objective function within other optimization processes, as well as in comparing the quality of visual summaries generated by different methods

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    • Prof. Michal Irani
    1522
    A method for enhancing the spatial and or temporal resolution (if applicable) of an input signal such as images and videos.   Many imaging devices produce signals of unsatisfactory resolution (e.g. a photo from a cell-phone camera may have low spatial resolution or a video from a web camera may have...

    A method for enhancing the spatial and or temporal resolution (if applicable) of an input signal such as images and videos.

     

    Many imaging devices produce signals of unsatisfactory resolution (e.g. a photo from a cell-phone camera may have low spatial resolution or a video from a web camera may have both spatial and temporal low resolution). This method applies digital processing to reconstruct more satisfactory high resolution signals.

     

    Previous methods for Super-Resolution (SR) require multiple images of the same scene, or else an external database of examples. This method provides the ability to perform SR from a single image (or a single visual source). The algorithm exploits the inherent local data redundancy within visual signals (redundancy both within the same scale, and across different scales).

     

    Examples of the methods' capabilities can be found here: http://www.wisdom.weizmann.ac.il/~vision/SingleImageSR.html

     

    Applications


    • Enhancing the spatial resolution of images

    • Enhancing the spatial and or temporal resolution of video sequences

    • Enhancing the spatial and or temporal resolution (if applicable) of other signals (e.g., MRI, fMRI, ultrasound, possibly also audio, etc.)

     


    Advantages


    • No need for multiple low resolution sources or the use of an external database of examples.

    • Superior results are produced due to exploitation of inherent information in the source signal.


    Technology's Essence


    The framework combines the power of classical multi image super resolution and example based super resolution. This combined framework can be applied to obtain super resolution from as little as a single low-resolution signal, without any additional external information. The approach is based on an observation that patches in a single natural signal tend to redundantly recur many times inside the signal, both within the same scale, as well as across different scales.

    Recurrence of patches within the same scale (at subpixel misalignments) forms the basis for applying the 'classical super resolution' constraints to information from a single signal. Recurrence of patches across different (coarser) scales implicitly provides examples of low-resolution / high-resolution pairs of patches, thus giving rise to 'example-based super-resolution' from a single signal (but without any external database or any prior examples).

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    • Prof. Michal Irani
    1270
    Monoclonal antibodies to IgE Description: Rat monoclonal anti-IgE antibodies that was generated by fusion of plasmacytoma (84.1C) or myeloma (EM953) cells with splenocytes of rat immunized with purified murine IgE mAb. The antibodies react with various IgE mAb of different specificities and not with...

    Monoclonal antibodies to IgE

    Description: Rat monoclonal anti-IgE antibodies that was generated by fusion of plasmacytoma (84.1C) or myeloma (EM953) cells with splenocytes of rat immunized with purified murine IgE mAb. The antibodies react with various IgE mAb of different specificities and not with immunoglobulins of other classes, and recognize an epitope on the murine Fc epsilon region.

    Were shown to block IgE-Fc?R interactions and inhibit passive cutaneous anaphylaxis. 

    Clone 84.1c recognizes a site on IgE, which is identical or very close to the Fc?R binding site. May be used for detection and manipulation of the IgE response in mice.

    Reference:  Schwarzbaum S, Nissim A, Alkalay I, Ghozi MC, Schindler DG, Bergman Y, Eshhar Z. 1989. Mapping of murine IgE epitopes involved in IgE-Fc epsilon receptor interactions. Eur J Immunol 19(6):1015-23.

     

    M182, M185, M186

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    • Prof. Zelig Eshhar

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