Underground production scheduling with ventilation and refrigeration considerations

Underground mine production scheduling determines when, if ever, activities associated with the extraction of ore should be executed. The accumulation of heat in the mine where operators are working is a major concern. At the time of this writing, production scheduling and ventilation decisions are not made in concert. Correspondingly, heat limitations are largely ignored. Our mixed-integer program maximizes net present value subject to constraints on precedence, and mill and extraction capacities with the consideration of heat using thermodynamic principles, while affording the option of activating refrigeration to mitigate heat accumulation. In seconds to hours, depending on the problem size (up to thousands of activities and 900 daily time periods), a corresponding methodology that exploits the mathematical problem structure provides schedules that maintain a safe working environment for mine operators; optimality gaps are no more than 15% and average less than half that for otherwise-intractable instances.

     

Transportation,handling, and microbial growth performance of molded fiber and expanded polystyrene apple trays

Washington State apples are shipped all over the United States for retail sales. Adequate packaging is needed to minimize apple damage during distribution. Two common materials used for apple trays are expanded polystyrene (EPS) and molded fiber (MF). A recent industry change from MF to EPS trays provoked an interest in exploring the performance difference between the two. Distribution environment hazards include shock, vibration, and compression forces. Prior work has focused only on comparing vibration or shock performance of EPS and MF trays used in protecting apples. In this study, a variety of typical hazards encountered between case pack and retail preparation are considered on a larger sampling scale. The shock, vibration, and interlayer dynamic compressive forces are simulated as well as free‐fall drops possible with manual handling of the cases. A novel device and test method is developed to simulate the forces because of human hands removing trays of apples from the case at retail. Further, a microbial analysis of worst case apple condensation is performed to compare the tray materials effect on apple microbial populations. It is concluded through physical and microbial testing that there is no statistical difference in the physical protection or the growth of microbial populations between EPS and MF apple trays. Most significant tray damage is observed in the EPS trays because of free‐fall drop testing. Apple tray material selection can be shifted to other factors such as cost or consumer preference.     

The effect of relaxed functional constraints on the photosynthetic gene rbcL in photosynthetic and nonphotosynthetic parasitic plants

The photosynthetic gene rbcL has been lost or dramatically altered in some lineages of nonphotosynthetic parasitic plants, but the dynamics of these events following loss of photosynthesis and whether rbcL has sustained functionally significant changes in photosynthetic parasitic plants are unknown. To assess the changes to rbcL associated with the loss of functional constraints for photosynthesis, nucleotide sequences from nonparasitic and parasitic plants of Scrophulariales were used for phylogeny reconstruction and character analysis. Plants in this group display a broad range of parasitic abilities, from photosynthetic ("hemiparasites") to nonphotosynthetic ("holoparasites"). With the exception of Conopholis (Orobanchaceae), the rbcL locus is present in all parasitic plants of Scrophulariales examined. Several holoparasitic genera included in this study, including Boschniakia, Epifagus, Orobanche, and Hyobanche, have rbcL pseudogenes. However, the holoparasites Alectra orobanchoides, Harveya capensis, Harveya purpurea, Lathraea clandestina, Orobanche corymbosa, O. fasciculata, and Striga gesnerioides have intact open reading frames (ORFs) for the rbcL gene. Phylogenetic hypotheses based on rbcL are largely in agreement with those based on sequences of the nonphotosynthetic genes rps2 and matK and show a single origin of parasitism, and loss of photosynthesis and pseudogene formation have been independently derived several times in Scrophulariales. The mutations in rbcL in nonparasitic and hemiparasitic plants would result in largely conservative amino acid substitutions, supporting the hypothesis that functional proteins can experience only a limited range of changes, even in minimally photosynthetic plants. In contrast, ORFs in some holoparasites had many previously unobserved missense substitutions at functionally important amino acid residues, suggesting that rbcL genes in these plants have evolved under relaxed or altered functional constraints.     

Quantitative morphometry of renal biopsies prior to cyclosporine in nephrotic syndrome

OBJECTIVE: Occupational therapy practitioners must meet ever-increasing accountability demands in all service delivery environments. Accountability is made possible through the ongoing development of continued competence throughout a practitioner's career. Behaviors that demonstrate accountability and reflect competence include commitment, leadership, and professional knowledge. This article discusses issues related to accountability and competence, presents findings from focus group discussions with occupational therapy practitioners regarding professional competence, and identifies actions that will bring about greater understanding of this topic. METHOD: Thirty-nine randomly selected occupational therapy practitioners attended one of two focus groups. Participants responded to a structured discussion guide, including questions addressing the definition, process for sustaining, and outcomes of continued competence. RESULTS: Several themes emerged from these discussions. Views about what constitutes and contributes to continued competence in occupational therapy were diverse, and perceptions of occupational therapy "practice" were broad. Participants believed that the "outcomes" of a practitioner's continued competence were best defined as autonomy in executing the occupational therapy process. CONCLUSIONS: Findings offer potential language to articulate competence in occupational therapy and facilitate a discipline-wide conversation. The findings likewise challenge practitioners to assume new professional behaviors that require both personal and interpersonal skills. Such behaviors are critical to demonstrating accountability and competence.     

A closed culture system for the ex vivo transduction and expansion of human T lymphocytes

The purpose of this qualitative study was to explore traditional beliefs and practices related to pregnancy and childbirth among Native American women and examine the relationship of these beliefs and practices to current use of prenatal care. Focus groups of elders and young women were held and the data analyzed with the Ethnograph software. The central theme was the breakdown in transmission of cultural wisdom among Native American women. The major causes described by women were federal assimilation policies and deaths of elders. Major factors influencing young women's nonutilization of prenatal care were this breakdown, the "Western model" of prenatal care, substance abuse, and domestic violence. Recommendations for improving the use of prenatal care are grounded in the reality that Native American women live in two different worlds. Prenatal care should be reconceptualized as traditional cultural wisdom, with the majority of care provided by natural helpers in the Native American community, including tribal elders, grandmothers, and aunts in collaboration with licensed providers.     

High-frequency audibility: benefits for hearing-impaired listeners

The present study was a systematic investigation of the benefit of providing hearing-impaired listeners with audible high-frequency speech information. Five normal-hearing and nine high-frequency hearing-impaired listeners identified nonsense syllables that were low-pass filtered at a number of cutoff frequencies. As a means of quantifying audibility for each condition, Articulation Index (AI) was calculated for each condition for each listener. Most hearing-impaired listeners demonstrated an improvement in speech recognition as additional audible high-frequency information was provided. In some cases for more severely impaired listeners, increasing the audibility of high-frequency speech information resulted in no further improvement in speech recognition, or even decreases in speech recognition. A new measure of how well hearing-impaired listeners used information within specific frequency bands called "efficiency" was devised. This measure compared the benefit of providing a given increase in speech audibility to a hearing-impaired listener to the benefit observed in normal-hearing listeners for the same increase in speech audibility. Efficiencies were calculated using the old AI method and the new AI method (which takes into account the effects of high speech presentation levels). There was a clear pattern in the results suggesting that as the degree of hearing loss at a given frequency increased beyond 55 dB HL, the efficacy of providing additional audibility to that frequency region was diminished, especially when this degree of hearing loss was present at frequencies of 4000 Hz and above. A comparison of analyses from the "old" and "new" AI procedures suggests that some, but not all, of the deficiencies of speech recognition in these listeners was due to high presentation levels.     

A Weight-Based Resource Scheduling Algorithm for Uplink LTE-A Femtocell Network

Wireless Personal Communications - SC-FDMA is the most suitable option for the LTE-A uplink. Contiguity plagiarism characteristics are required for optimum channel scheduling in an SC-FDMA system....     

Robotic technologies for solar‐powered UAVs: Fully autonomous updraft‐aware aerial sensing for multiday search‐and‐rescue missions

Large‐scale aerial sensing missions can greatly benefit from the perpetual endurance capability provided by high‐performance low‐altitude solar‐powered unmanned aerial vehicles (UAVs). However, today these UAVs suffer from small payload capacity, low energetic margins, and high operational complexity. To tackle these problems, this paper presents four individual technical contributions and integrates them into an existing solar‐powered UAV system: First, a lightweight and power‐efficient day/night‐capable sensing system is discussed. Second, means to optimize the UAV platform to the specific payload and to thereby achieve sufficient energetic margins for day/night flight with payload are presented. Third, existing autonomous launch and landing functionality is extended for solar‐powered UAVs. Fourth, as a main contribution an extended Kalman filter (EKF)‐based autonomous thermal updraft tracking framework is developed. Its novelty is that it allows the end‐to‐end integration of the thermal‐induced roll moment into the estimation process. It is assessed against unscented Kalman filter and particle filter methods in simulation and implemented on the aircraft's low‐power autopilot. The complete system is verified during a 26 h search‐and‐rescue aerial sensing mock‐up mission that represents the first‐ever fully autonomous perpetual endurance flight of a small solar‐powered UAV with a day/night‐capable sensing payload. It also represents the first time that solar‐electric propulsion and autonomous thermal updraft tracking are combined in flight. In contrast to previous work that has focused on the energetic feasibility of perpetual flight, the individual technical contributions of this paper are considered core functionality to guarantee ease‐of‐use, effectivity, and reliability in future multiday aerial sensing operations with small solar‐powered UAVs.