2,804 research outputs found
A comparison of airborne wake vortex detection measurements with values predicted from potential theory
An analysis of flight measurements made near a wake vortex was conducted to explore the feasibility of providing a pilot with useful wake avoidance information. The measurements were made with relatively low cost flow and motion sensors on a light airplane flying near the wake vortex of a turboprop airplane weighing approximately 90000 lbs. Algorithms were developed which removed the response of the airplane to control inputs from the total airplane response and produced parameters which were due solely to the flow field of the vortex. These parameters were compared with values predicted by potential theory. The results indicated that the presence of the vortex could be detected by a combination of parameters derived from the simple sensors. However, the location and strength of the vortex cannot be determined without additional and more accurate sensors
Measuring, Predicting and Visualizing Short-Term Change in Word Representation and Usage in VKontakte Social Network
Language in social media is extremely dynamic: new words emerge, trend and
disappear, while the meaning of existing words can fluctuate over time. Such
dynamics are especially notable during a period of crisis. This work addresses
several important tasks of measuring, visualizing and predicting short term
text representation shift, i.e. the change in a word's contextual semantics,
and contrasting such shift with surface level word dynamics, or concept drift,
observed in social media streams. Unlike previous approaches on learning word
representations from text, we study the relationship between short-term concept
drift and representation shift on a large social media corpus - VKontakte posts
in Russian collected during the Russia-Ukraine crisis in 2014-2015. Our novel
contributions include quantitative and qualitative approaches to (1) measure
short-term representation shift and contrast it with surface level concept
drift; (2) build predictive models to forecast short-term shifts in meaning
from previous meaning as well as from concept drift; and (3) visualize
short-term representation shift for example keywords to demonstrate the
practical use of our approach to discover and track meaning of newly emerging
terms in social media. We show that short-term representation shift can be
accurately predicted up to several weeks in advance. Our unique approach to
modeling and visualizing word representation shifts in social media can be used
to explore and characterize specific aspects of the streaming corpus during
crisis events and potentially improve other downstream classification tasks
including real-time event detection
An ecological assessment of neighborhood, family, peer, and individual characteristics in predicting violence: a multilevel analysis of African-American families
This study used epidemic, cultural deviance, and social learning perspectives to examine the extent to which exposure to various forms of violence predicted violent behavior among 867 African-American youth. The study examined the following macro-level predictors of childhood violence: neighborhood violence, neighborhood SES, neighborhood subculture of violence, and percent African American. The following micro-level predictors were examined: street code, associating with violent peers, corporal punishment, parental violence, and warm/supportive parenting. Using hierarchical linear modeling techniques (HLM), the results showed that neighborhood SES was the only macro-level variable to exert a significant influence on violence. Furthermore, childhood violence was significantly related to street code, violent peers, parental violent behavior, and warm/supportive parenting. Overall, the results indicated that micro-level variables explained 27% of the variance, and macro-level variables explained an additional 3%. These findings demonstrate the importance of micro-level factors in predicting violence. It was concluded that simply living in a violent neighborhood does not produce violent children, but that family, peer, and individual characteristics at the micro-level play a large role in predicting violence in children
Managerial Control Effects on Information Security Policy Compliance Intentions: Considerations of Formal and Informal Modes of Control
With the continued advancement in computer and digital technologies, companies, institutions, and organizations worldwide have leveraged new information technology to increase efficiency and effectiveness for all aspects of their business functions. Oftentimes, the information processed and stored on information systems poses an information security risk to the organization, employees, and clients alike. Therefore, a comprehensive and effective information security management program is essential to protecting data from accidental or intentional exposure to actors who wish to gain access to data to make a profit by selling the information to the highest bidder, utilize the stolen data for their own internal research and development, or use the data to damage a targeted institution for nefarious motives. Employees’ compliance with corporate information security policies is a necessary component to the success of the corporate information security management program. In this study, I adopted the control theory and developed a research model to explain how formal and informal organizational controls affect employees’ intentions to comply with information security policies. To test the model, I collected data from 303 respondents about their perceptions of their organizations’ formal and informal control modes along with their respective intentions to comply with information security policies. SEM-PLS analysis provided results that were only partially in consonance with previous studies and showed some additive effects when control modes were combined into a single model. I found clan control (informal) to have a significant and positive effect. I also found that adding the informal control modes into the model resulted in a different effect by rendering input control (formal) and self-control (informal) insignificant and changing the direction of the relationship of outcome control (formal) and behavior control (formal). In turn, these findings can help organizations set up proper controls to protect themselves from cyber threats and establish the most effective methods of control based on organizational context and control theory to ensure employees’ compliance with the established information security policies of their organizations
SECURED ENTERPRISE ANCHORED 5G CORE USER PLANE FUNCTION
Techniques provided herein extend User Plane mobile core Functions (UPFs) outside the conventional service provider boundary to the enterprise customers’ premises. Between the enterprise-hosted UPF and packet core, secured ES1u/EN3 and ESx/EN4 interfaces and call flows are defined in addition to those in the 3rd Generation Partnership Project (3GPP) standards. These new secured interfaces are further protected by white-list server authorization before secure tunnels are established
Going in Reverse to Go Forward: Institutional Repositories and The New York Public Library
The Research Libraries of the New York Public Library is one of the most significant public information centers in the world. Since the opening in 1911 of its flagship building at Fifth Avenue and 42nd Street in the heart of Manhattan , the Library has aimed to serve people from all walks of life and on a global scale. ..
A Piloted Simulator Evaluation of Transport Aircraft Rudder Pedal Force/Feel Characteristics
A piloted simulation study has been conducted in a fixed-base research simulator to assess the directional handling qualities for various rudder pedal feel characteristics for commercial transport airplanes. That is, the effects of static pedal force at maximum pedal travel, breakout force, and maximum pedal travel on handling qualities were studied. An artificial maneuver with a severe lateral wind shear and requiring runway tracking at an altitude of 50 feet in a crosswind was used to fully exercise the rudder pedals. Twelve active airline pilots voluntarily participated in the study and flew approximately 500 maneuvers. The pilots rated the maneuver performance with various rudder pedal feel characteristics using the Cooper- Harper rating scale. The test matrix had 15 unique combinations of the 3 static pedal feel characteristics. A 10-term, second-order equation for the Cooper-Harper pilot rating as a function of the 3 independent pedal feel parameters was fit to the data. The test matrix utilized a Central Composite Design that is very efficient for fitting an equation of this form. The equation was used to produce contour plots of constant pilot ratings as a function of two of the parameters with the third parameter held constant. These contour plots showed regions of good handling qualities as well as regions of degraded handling qualities. In addition, a numerical equation solver was used to predict the optimum parameter values (those with the lowest pilot rating). Quantitative pilot performance data were also analyzed. This analysis found that the peak values of the cross power spectra of the pedal force and heading angle could be used to quantify the tendency toward directional pilot induced oscillations (PIO). Larger peak values of the cross power spectra were correlated with larger (degraded) Cooper-Harper pilot ratings. Thus, the subjective data (Cooper-Harper pilot ratings) were consistent with the objective data (peak values of the cross power spectra)
Fast Algorithms at Low Temperatures via Markov Chains
For spin systems, such as the hard-core model on independent sets weighted by fugacity lambda>0, efficient algorithms for the associated approximate counting/sampling problems typically apply in the high-temperature region, corresponding to low fugacity. Recent work of Jenssen, Keevash and Perkins (2019) yields an FPTAS for approximating the partition function (and an efficient sampling algorithm) on bounded-degree (bipartite) expander graphs for the hard-core model at sufficiently high fugacity, and also the ferromagnetic Potts model at sufficiently low temperatures. Their method is based on using the cluster expansion to obtain a complex zero-free region for the partition function of a polymer model, and then approximating this partition function using the polynomial interpolation method of Barvinok. We present a simple discrete-time Markov chain for abstract polymer models, and present an elementary proof of rapid mixing of this new chain under sufficient decay of the polymer weights. Applying these general polymer results to the hard-core and ferromagnetic Potts models on bounded-degree (bipartite) expander graphs yields fast algorithms with running time O(n log n) for the Potts model and O(n^2 log n) for the hard-core model, in contrast to typical running times of n^{O(log Delta)} for algorithms based on Barvinok\u27s polynomial interpolation method on graphs of maximum degree Delta. In addition, our approach via our polymer model Markov chain is conceptually simpler as it circumvents the zero-free analysis and the generalization to complex parameters. Finally, we combine our results for the hard-core and ferromagnetic Potts models with standard Markov chain comparison tools to obtain polynomial mixing time for the usual spin system Glauber dynamics restricted to even and odd or "red" dominant portions of the respective state spaces
A simulation study of control and display requirements for zero-experience general aviation pilots
The purpose of this simulation study was to define the basic human factor requirements for operating an airplane in all weather conditions. The basic human factors requirements are defined as those for an operator who is a complete novice for airplane operations but who is assumed to have automobile driving experience. These operators thus have had no piloting experience or training of any kind. The human factor requirements are developed for a practical task which includes all of the basic maneuvers required to go from one airport to another airport in limited visibility conditions. The task was quite demanding including following a precise path with climbing and descending turns while simultaneously changing airspeed. The ultimate goal of this research is to increase the utility of general aviation airplanes - that is, to make them a practical mode of transportation for a much larger segment of the general population. This can be accomplished by reducing the training and proficiency requirements of pilots while improving the level of safety. It is believed that advanced technologies such as fly-by-wire (or light), and head-up pictorial displays can be of much greater benefit to the general aviation pilot than to the full-time, professional pilot
The Quantitative Turn in Transitional Justice Research: What Have We Learned About Impact?
In recent years, scholars have increasingly turned to quantitative research methods to understand the impact of transitional justice (TJ) on societies emerging from periods of violence and repression. This research often seeks to influence policy diffusion by making bold claims based upon large datasets of TJ events that span space and time. However, the policy advice from the first wave of quantitative research is inconsistent if not contradictory. In this article, we outline a range of methodological issues that help to explain the different conclusions reached by these studies, including sampling strategies, model construction, and the measurement of key variables. Furthermore, these studies have often failed to provide compelling theoretical or empirical bases for a causal relationship between TJ mechanisms and dependent variables such as democracy and human rights. We suggest several ways in which quantitative scholars could produce findings with broader credibility. Although we support the use of quantitative methods to understand the impact of TJ mechanisms, greater methodological care is needed in supporting policy recommendations
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