8,480 research outputs found
Reply to "Comment on: A Quantum Approach to Static Games of Complete Information"
This is a reply to the paper by S.C.Benjamin, quant-ph/0008127.Comment: 2 pages, Latex, submitted to Phys. Lett.
Homage to Richard M. Elliott
No abstract available
Spectroscopic Studies of Brooker\u27s Merocyanine in Zeolite L
Zeolites are porous, crystalline substances that have very unique atomic organizations which allow for the formation of complex channels within the crystals. Each type of zeolite has a distinct shape and structure. To better understand the properties of zeolite channels, a dye molecule known as Brooker’s merocyanine was inserted into Zeolite L. Maximum dye loading into the zeolite channels was achieved by altering different experimental variables, such as heat, solution concentration, stirring, cation exchange, and light exposure. X-ray diffraction was used to verify the synthesis of zeolites, the cation exchange process, and dye loading. UV-Vis spectroscopy was used to measure the amount of dye adsorbed by the zeolite. By using the UV-Vis absorbance values and Beer’s Law, the concentration of dye in the zeolites was determined. The results showed that an increase of heat and stirring correlated to an increase of adsorption of dye by the zeolite. Due to the light sensitivity of Brooker’s merocyanine, it was found that limiting the amount of light exposure of the dye solutions also resulted in higher dye adsorption by the zeolites. An increase of the concentration of the dye solution increased the rate of adsorption in the channels. However, exchanging the potassium ions found within the synthesized Zeolite L channels with smaller hydrogen ions did not have an affect on the adsorption of dye in the channels. Characterizing how to achieve a maximum of dye adsorption in the zeolites allows for a better understanding of how dye molecules interact within the zeolite channels
EC-GSM-IoT Network Synchronization with Support for Large Frequency Offsets
EDGE-based EC-GSM-IoT is a promising candidate for the billion-device
cellular IoT (cIoT), providing similar coverage and battery life as NB-IoT. The
goal of 20 dB coverage extension compared to EDGE poses significant challenges
for the initial network synchronization, which has to be performed well below
the thermal noise floor, down to an SNR of -8.5 dB. We present a low-complexity
synchronization algorithm supporting up to 50 kHz initial frequency offset,
thus enabling the use of a low-cost +/-25 ppm oscillator. The proposed
algorithm does not only fulfill the 3GPP requirements, but surpasses them by 3
dB, enabling communication with an SNR of -11.5 dB or a maximum coupling loss
of up to 170.5 dB.Comment: Wireless Communications and Networking Conference (WCNC), 201
Emancipation in the West Indies: Thome and Kimball\u27s Interpretation and the Shift in American Antislavery Discourse, 1834-1840
This study, in short, examines the impact of Thome and Kimball\u27s Emancipation in the West Indies text on the changing understanding of immediatism and on the concomitant shifts in American antislavery discourse and tactics leading up to 1840. I take up the question of how new forms of discipline and labor exploitation which were pioneered in the British Caribbean came to influence abolitionists\u27 vision of freedom and discuss possible consequences only briefly in the conclusion as I point to further directions in which a study such as this could be taken
Mobile Map Browsers: Anticipated User Interaction for Data Pre-fetching
When browsing a graphical display of geospatial data on mobile devices, users typically change the displayed maps by panning, zooming in and out, or rotating the device. Limited storage space on mobile devices and slow wireless communications, however, impede the performance of these operations. To overcome the bottleneck that all map data to be displayed on the mobile device need to be downloaded on demand, this thesis investigates how anticipated user interactions affect intelligent pre-fetching so that an on-demand download session is extended incrementally. User interaction is defined as a set of map operations that each have corresponding effects on the spatial dataset required to generate the display. By anticipating user interaction based on past behavior and intuition on when waiting for data is acceptable, it is possible to device a set of strategies to better prepare the device with data for future use. Users that engage with interactive map displays for a variety of tasks, whether it be navigation, information browsing, or data collection, experience a dynamic display to accomplish their goal. With vehicular navigation, the display might update itself as a result of a GPS data stream reflecting movement through space. This movement is not random, especially as is the case of moving vehicles and, therefore, this thesis suggests that mobile map data could be pre-fetched in order to improve usability. Pre-fetching memory-demanding spatial data can benefit usability in several ways, but in particular it can (1) reduce latency when downloading data over wireless connections and (2) better prepare a device for situations where wireless internet connectivity is weak or intermittent. This thesis investigates mobile map caching and devises an algorithm for pre-fetching data on behalf of the application user. Two primary models are compared: isotropic (direction-independent) and anisotropic (direction-dependent) pre-fetching. A prefetching simulation is parameterized with many trajectories that vary in complexity (a metric of direction change within the trajectory) and it is shown that, although anisotropic pre-fetching typically results in a better pre-fetching accuracy, it is not ideal for all scenarios. This thesis suggests a combination of models to accommodate the significant variation in moving object trajectories. In addition, other methods for pre-fetching spatial data are proposed for future research
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