Institution
Agilent Technologies
Company•Santa Clara, California, United States•
About: Agilent Technologies is a company organization based out in Santa Clara, California, United States. It is known for research contribution in the topics: Signal & Mass spectrometry. The organization has 7398 authors who have published 11518 publications receiving 262410 citations. The organization is also known as: Agilent Technologies, Inc..
Topics: Signal, Mass spectrometry, Laser, Amplifier, Analog signal
Papers published on a yearly basis
Papers
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TL;DR: This work proposes the use of multiple probes and complementary techniques and the measurement of intracellular probe uptake and specific marker products to identify specific ROS generated in cells and the low-temperature EPR technique developed to investigate cellular/mitochondrial oxidants can easily be extended to animal and human tissues.
78 citations
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21 Jan 2004TL;DR: In this article, a test data frame is generated incorporating the predetermined items, with the source and destination addresses exchanged, and incorporating additional content of predetermined value, and a transmitter transmits the new data frame with the exchanged addresses into the network.
Abstract: For testing communication in a network which carries data frames between communications ports having respective addresses, each frame containing an indication of the address of the source of the frame, the address of the intended destination of the frame, and other data, a tester has at least one communications port and a receiver for receiving a data frame arriving at the communications port. The tester includes circuitry for recognising test data frames according to at least one predetermined criterion, and extracting predetermined items from each test data frame including the source and destination addresses. A new test data frame is generated incorporating the predetermined items, with the source and destination addresses exchanged, and incorporating additional content of predetermined value, and a transmitter transmits the new data frame with the exchanged addresses into the network.
77 citations
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18 Oct 2005TL;DR: In this paper, an electrically-isolating acoustic coupler is proposed for passing information signals having data rates in excess of 100 Mbit/s and a substantial breakdown voltage between its inputs and its outputs.
Abstract: Embodiments of the acoustic galvanic isolator (10) comprise a carrier signal source (12), a modulator (14) connected to receive an information signal (Si) and the carrier signal (Sc), a demodulator (18), and an electrically-isolating acoustic coupler (16) connected between the modulator (14) and the demodulator (18). In an exemplary embodiment, the electrically-isolating acoustic coupler (16) comprises film bulk acoustic resonators (FBARs). An electrically-isolating acoustic coupler is physically small and is inexpensive to fabricate yet is capable of passing information signals having data rates in excess of 100 Mbit/s and has a substantial breakdown voltage between its inputs and its outputs.
77 citations
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09 Jan 2001TL;DR: In this paper, the authors propose an on-chip digital signal processor (DSP) that allows precise algorithmic processing of the digitized signal with almost infinite hold time, depending on storage capability.
Abstract: A CMOS digital integrated circuit (IC) chip on which an image is captured, digitized, and then processed on-chip in substantially the digital domain. A preferred embodiment comprises imaging circuitry including a photo cell array for capturing an image and generating a representative analog signal, conversion circuitry including an n-bit successive approximation register (SAR) analog-to-digital converter for converting the analog signal to a corresponding digital signal, filter circuitry including a spatial filter for edge and contrast enhancement of the corresponding image, compression circuitry for reducing the digital signal storage needs, correlation circuitry for processing the digital signal to generate result surface on which a minima resides representing a best fit image displacement between the captured image and previous images, interpolation circuitry for mapping the result surface into x- and y-coordinates, and an interface with a device using the chip, such as a hand-held scanner. The filter circuitry, the compression circuitry, the correlation circuitry and the interpolation circuitry are all advantageously embodied in an on-chip digital signal processor (DSP). The DSP embodiment allows precise algorithmic processing of the digitized signal with almost infinite hold time, depending on storage capability. The corresponding mathematical computations are thus no longer subject to the vagaries of CMOS chip structure processing analog signals. As a result, precise and accurate navigation enables a predictable, reliable and manufacturable design. Parameters may also be programmed into the DSP's “software,” making the chip tunable, as well as flexible and adaptable for different applications.
77 citations
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TL;DR: The PMRM approach proved superior to the classic single quadrupole technique, with enhanced sensitivity, specificity, and significant reduction in time consuming sample clean-up procedures, with significant savings in terms of preparation time and solvent usage.
77 citations
Authors
Showing all 7402 results
Name | H-index | Papers | Citations |
---|---|---|---|
Hongjie Dai | 197 | 570 | 182579 |
Zhuang Liu | 149 | 535 | 87662 |
Jie Liu | 131 | 1531 | 68891 |
Thomas Quertermous | 103 | 405 | 52437 |
John E. Bowers | 102 | 1767 | 49290 |
Roy G. Gordon | 89 | 449 | 31058 |
Masaru Tomita | 76 | 677 | 40415 |
Stuart Lindsay | 74 | 347 | 22224 |
Ron Shamir | 74 | 319 | 23670 |
W. Richard McCombie | 71 | 144 | 64155 |
Tomoyoshi Soga | 71 | 392 | 21209 |
Michael R. Krames | 65 | 321 | 18448 |
Shabaz Mohammed | 64 | 188 | 17254 |
Geert Leus | 62 | 609 | 19492 |
Giuseppe Gigli | 61 | 541 | 15159 |