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Journal articles on the topic 'Exploration'

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Author: Grafiati
Published: 4 June 2021
Last updated: 31 July 2024

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1

Foster, Krislyn, James Yon, Casey E. Pelzl, Kristin Salottolo, Caleb Mentzer, Glenda Quan, Emmett E. McGuire, Burt Katubig, and David Bar-Or. "Six-year national study of damage control laparotomy and the effect of repeat re-exploration on rate of infectious complications." Trauma Surgery & Acute Care Open 6, no. 1 (June 2021): e000706. http://dx.doi.org/10.1136/tsaco-2021-000706.

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BackgroundDamage control laparotomy (DCL) is a life-saving procedure in patients with abdominal hemorrhage. After DCL, patients are sometimes left with an open abdomen (OA) so they may undergo multiple exploratory laparotomies (EXLAP), or re-explorations. Patients with OA are at increased risk of infectious complications (ICs). The association between number of re-explorations after DCL and the number of ICs is not clear. We hypothesized that each additional re-exploration increases the risk of developing IC.MethodsThis 6-year retrospective cohort study included patients aged ≥16 years from the NTDB who had DCL defined as EXLAP within 2 hours of arrival (ICD-9: 54.11, 54.12, 54.19) with at least one re-exploration. The primary outcome was IC (ie, superficial surgical site infection (SSI), organ space SSI, deep SSI, sepsis, pneumonia, or catheter-related bloodstream infection), examined dichotomously (present/absent) and ordinally as the number of ICs. Multivariate Poisson regression was used to assess the association between number of re-explorations and number of ICs. Significance was assigned at p<0.01.ResultsThere were 7431 patients who underwent DCL; 2509 (34%) patients developed at least one IC. The rate of IC was lowest in patients who were closed during the first re-exploration (27%) and significantly increased with each re-exploration to 59% in patients who had five or more re-explorations (Cochran-Armitage trend p<0.001). After adjustment, there was 14% increased risk of an additional IC with each re-exploration (p<0.001).DiscussionFor patients requiring DCL, each re-exploration of the abdomen is associated with increased rate of ICs.Level of evidenceIII, retrospective epidemiological study.
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Tuominen, Eva, Marjatta Kangassalo, Pentti Hietala, Roope Raisamo, and Kari Peltola. "Proactive Agents to Assist Multimodal Explorative Learning of Astronomical Phenomena." Advances in Human-Computer Interaction 2008 (2008): 1–13. http://dx.doi.org/10.1155/2008/387076.

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This paper focuses on developing, testing, and examining the Proagents multimodal learning environment to support blind children's explorative learning in the area of astronomy. We utilize haptic, auditive, and visual interaction. Haptic and auditory feedbacks make the system accessible to blind children. The system is used as an exploration tool for children's spontaneous and question-driven explorations. High-level interaction and play are essential with environments for young children. Proactive agents support and guide children to deepen their explorations and discover the central concepts and relations in phenomena. It has been challenging to integrate together in a pedagogically relevant way the explorative learning approach, proactive agents' actions, haptic perception's possibilities, and the selected astronomical phenomena. Our tests have shown that children are very interested in using the system and the operations of the agents.
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Muth, Claudia, Sabine Ebert, Slobodan Marković, and Claus-Christian Carbon. "“Aha”ptics: Enjoying an Aesthetic Aha During Haptic Exploration." Perception 48, no. 1 (December 19, 2018): 3–25. http://dx.doi.org/10.1177/0301006618818014.

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Perceptual insight, like recognizing hidden figures, increases the appreciation of visually perceived objects. We examined this Aesthetic Aha paradigm in the haptic domain. Participants were thinking aloud during haptic exploration of 11 visually nonaccessible panels. They explored them again evaluating them on liking, pleasingness, complexity, and interestingness. Afterwards they rated photographs of the panels on the same variables. Haptic pleasingness was predictable by the strength of insight (Aha!) during free exploration and the material feel. Liking was increased when complexity was high in addition. Pleasingness and interest were negatively related to each other but predicted liking in a combined model. Personality and explorative strategies were considered, for example, strength of insight was increased for ambiguity-tolerant people, and people with high need for closure explored more globally. Evaluations of haptic and visual explorations correlated significantly, and in both modalities, complexity correlated more strongly with interest than with liking. Our study transfers the Aesthetic Aha effect to the haptic domain and reveals slight differences in its hedonic quality with a potentially higher relevance of pleasingness. We suggest that revealing a (meaningful) structure during exploration—visually or haptically—can enhance positive affect and interest hereby benefits from an increased level of complexity.
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Othman, W. A. F. W., M. A. Rosli, and A. A. A. Wahab S. S. N. Alhady. "Homogeneous Swarm Robots Exploration." International Journal of Trend in Scientific Research and Development Volume-2, Issue-6 (October 31, 2018): 125–32. http://dx.doi.org/10.31142/ijtsrd18398.

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5

Ehrlich, Cyril, and Maurice Hinson. "Exploration." Musical Times 131, no. 1769 (July 1990): 372. http://dx.doi.org/10.2307/965759.

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Schott, Howard, Bruce Gustafson, and David Fuller. "Exploration." Musical Times 132, no. 1782 (August 1991): 395. http://dx.doi.org/10.2307/965894.

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Pollitt, Mark. "Exploration." Journal of Digital Forensic Practice 1, no. 1 (March 2006): 67–68. http://dx.doi.org/10.1080/15567280600631940.

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8

Marshall, T. R. "Exploration results, exploration targets, and mineralisation." Journal of the Southern African Institute of Mining and Metallurgy 117, no. 12 (2017): 1121–26. http://dx.doi.org/10.17159/2411-9717/2017/v117n12a5.

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9

Ramakrishnan, Santhosh K., Dinesh Jayaraman, and Kristen Grauman. "An Exploration of Embodied Visual Exploration." International Journal of Computer Vision 129, no. 5 (February 27, 2021): 1616–49. http://dx.doi.org/10.1007/s11263-021-01437-z.

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10

Smith, Dick J., and Eric F. Errthum. "Finding Skewed Lattice Rectangles." Mathematics Teacher 106, no. 2 (September 2012): 150–55. http://dx.doi.org/10.5951/mathteacher.106.2.0150.

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Many mathematics instructors attempt to insert guided exploration into their courses. However, exploration tasks frequently come across to students as contrived, pertinent only to the most recently covered section of the textbook. In addition, students usually assume that the teacher already knows the answers to these explorations.
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Su, Yu-Shan, and Wim Vanhaverbeke. "How do different types of interorganizational ties matter in technological exploration?" Management Decision 57, no. 8 (September 12, 2019): 2148–76. http://dx.doi.org/10.1108/md-06-2018-0713.

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Purpose Boundary-spanning exploration through establishing alliances is an effective strategy to explore technologies beyond local search in innovating firms. The purpose of this paper is to argue that it is useful to make a distinction in boundary-spanning exploration between what a firm learns from its alliance partners (explorative learning from partners (ELP)) and what it learns from other organisations (explorative learning from non-partners (ELN)). Design/methodology/approach The authors contend that alliances play a role in both types of exploration. More specifically, the authors discern three types of alliances (inside ties, clique-spanning ties and outside ties) based on their role vis-à-vis existing alliance cliques. Clique members are highly embedded, and breaking out of the cliques through clique-spanning and outside alliances is crucial to improving explorative learning. Thereafter, the authors claim that clique-spanning ties and outside ties have a different effect on ELN and ELP. Findings The empirical analysis of the “application specific integrated circuits” industry indicates that inside ties have negligible effects on both types of explorative learning. Clique-spanning ties have a positive effect on ELP, but not on ELN. The reverse is true for outside ties. The results show that research on explorative learning should devote greater attention to the various roles alliance partners and types of alliances play in advancing technological exploration. Originality/value The literature only emphasises the learning from partners, focussing mainly on accessing their technology. In sum, alliance partners play different roles in exploration, and their network position influences the role they are able to play.
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Mansour, Yishay, Alex Slivkins, Vasilis Syrgkanis, and Zhiwei Steven Wu. "Bayesian Exploration: Incentivizing Exploration in Bayesian Games." Operations Research 70, no. 2 (March 2022): 1105–27. http://dx.doi.org/10.1287/opre.2021.2205.

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In a wide range of recommendation systems, self-interested individuals (“agents”) make decisions over time, using information revealed by other agents in the past, and producing information that may help agents in the future. Each agent would like to exploit the best action given the current information but would prefer the previous agents to explore various alternatives to collect information. A social planner, by means of a well-designed recommendation policy, can incentivize the agents to balance exploration and exploitation in order to maximize social welfare or some other objective. The recommendation policy can be modeled as a multiarmed bandit algorithm under Bayesian incentivecompatibility (BIC) constraints. This line of work has received considerable attention in the “economics and computation” community. Although in prior work, the planner interacts with a single agent at a time, the present paper allows the agents to affect one another directly in a shared environment. The agents now face two sources of uncertainty: what is the environment, and what would the other agents do? We focus on “explorable” actions: those that can be recommended by some BIC policy. We show how the principal can identify and explore all such actions.
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Xie, Xuejing. "Empirical prospecting, scientific exploration and information exploration." Journal of Geochemical Exploration 67, no. 1-3 (December 1999): 97–108. http://dx.doi.org/10.1016/s0375-6742(99)00073-4.

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Birchmeier, Kristina, Lily Johnson-Ulrich, Joana Stein, and Sofia Forss. "The Role of Umwelt in Animal Curiosity: A Within and Between Species Comparison of Novelty Exploration in Mongooses." Animal Behavior and Cognition 10, no. 4 (November 1, 2023): 329–54. http://dx.doi.org/10.26451/abc.10.04.03.2023.

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In its broadest sense, curiosity has been described as an intrinsic motivation to acquire novel information; this ‘novelty-seeking’ is notably in the absence of any immediate reward. One way to examine information seeking in animals, has been to present animals with novel objects and measure the way animals gather information through exploration. While this is a standardized and common paradigm, few studies have focused on what factors influence how animals perceive novelty, whilst considering the predicted impacts of an animal’s ‘umwelt’ on exploration. In this study we assessed explorative behaviors in mongooses through both an intra and interspecific view. First, in meerkats (Suricata suricatta) tested in their natural environment, we established that they distinguish familiar from unfamiliar and show increased exploration of novel objects. We also found that odor influenced the meerkats’ explorative action, so that non-odorous items were manipulated longer. Presence of conspecifics influenced approaches to novelty, but not the exploration per se. Human presence interacted with an individual’s level of habituation to impact approaches and exploration of novelty and we found a strong captivity effect on exploration between captive and wild meerkats. Between species analysis showed that yellow mongooses (Cynictis penicillate), a less social mongoose than meerkats, showed higher levels of novelty exploration, when tested within the same habitat. Thus, these findings show that multiple factors, including perceptual abilities (merkwelt) and social factors (sozialwelt), are decisive for when and how animals explore their environment and must be considered both when designing novelty paradigm tests and their interpretations.
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Lavoye, Virginie, Jenni Sipilä, Joel Mero, and Anssi Tarkiainen. "The emperor’s new clothes: self-explorative engagement in virtual try-on service experiences positively impacts brand outcomes." Journal of Services Marketing 37, no. 10 (April 7, 2023): 1–21. http://dx.doi.org/10.1108/jsm-04-2022-0137.

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Purpose Virtual try-on (VTO) technology offers an opportunity for fashion and beauty brands to provide enriched self-explorative experiences. The increased popularity of VTOs makes it urgent to understand the drivers and consequences of the exploration of styles in VTO contexts (herein called self-explorative engagement). Notably, little is known about the antecedent and outcomes of the personalized self-explorative experience central to VTOs. This paper aims to fill this knowledge gap. Design/methodology/approach An online quasi-experiment (N = 500) was conducted in the context of fashion and beauty VTOs. Participants were asked to virtually try on sunglasses or lipsticks and subsequently answer a questionnaire measuring the key constructs: self-presence (i.e. physical similarity and identification), self-explorative engagement (i.e. exploration of styles in VTO context), brand cognitive processing and brand attitude. The authors analyze the data with structural equation modeling via maximum likelihood estimation in LISREL. Findings The experience of self-presence during consumers’ use of VTOs in augmented reality environments has a positive effect on self-explorative engagement. Furthermore, a mediation analysis reveals that self-explorative engagement improves brand attitude via brand cognitive processing. The results are confirmed for two popular fashion and beauty brands. Originality/value Grounded in extended self theory, to the best of the authors’ knowledge, this is the first study to show that a realistic VTO experience encourages self-extension via a process starting from the exploration of styles and results in increased brand cognitive processing and more positive brand attitudes. The exploration of styles is enabled by self-presence.
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DiDomenico, Angelo S. "A Trigonometric Exploration." Mathematics Teacher 85, no. 7 (October 1992): 582–83. http://dx.doi.org/10.5951/mt.85.7.0582.

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Open explorations are exciting and enriching experiences and can lead to some interesting findings. These activities develop confidence and self-direction, challenge our analytical and creative powers, and give valuable insights into the nature and growth of mathematics. An investigation can begin in a variety of ways. It can start with an observation and a question, with a search for patterns and relations, and on a more sophisticated level, with an exploration of the implications of known properties and relations.
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Pushpa, G., and G. Mutyalamma. "Contiguous Neighbour Exploration through Keywords." International Journal of Trend in Scientific Research and Development Volume-2, Issue-1 (December 31, 2017): 1352–57. http://dx.doi.org/10.31142/ijtsrd8235.

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18

Simbolon, Rotua, Lukman El Hakim, and Tian Abdul Aziz. "Phenomenological Exploration in Mathematics Education." PARADIKMA: JURNAL PENDIDIKAN MATEMATIKA 16, no. 1 (June 29, 2023): 107–12. http://dx.doi.org/10.24114/paradikma.v16i1.45264.

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We don't know what will happen tomorrow. Yesterday is a memory, today is a reality and tomorrow is a hope. Who would have thought that the corona virus would become one of the elements forming a new life cycle not only for Indonesia but for the whole world. During the Covid-19 pandemic, Large-Scale Social Restrictions (PSBB) were implemented, this had an impact on the implementation of face-to-face (online) learning. Educational institutions must also change direction. Work from home. Going online is one way to stay afloat. Learners at all levels, learn online. Some are still not familiar with this method, especially those in regions or villages, so that in its implementation there are obstacles that result in the implementation of the learning process not being optimal. Those who live in cities experience different obstacles again. Learning that should be carried out face-to-face has changed to online. One of the differences that exist is seen from progress, namely those who live in cities and in villages have different difficulties. Not to mention the other variants. This article aims to find out the obstacles experienced by students during the implementation of online learning in Mathematics lessons. The approach used is a phenomenological approach. How does the exploration of phenomenology play a role in the mathematical approach. The hope is that with this approach you can get information regarding the implementation of the online learning process for learning Mathematics during the Covid-19 pandemic. Exploration of Mathematics Education is seen from a phenomenological attitude, which means that it starts with entering phenomena through practice. The exercises provided are designed so that participants are able to illustrate, mention, give directions and are able to associate meanings and differences. Actually someone gets something in learning more than one's intentions, it doesn't even matter whether a teacher teaches well. For this reason, a creative teaching method is needed in learning mathematics so that there is good interaction between students and teachers. Conclusion: The process of learning mathematics online was not optimal during the pandemic due to several factors that affected the smooth implementation of learning.
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Xie, Fan, Martin Müller, and Robert Holte. "Understanding and Improving Local Exploration for GBFS." Proceedings of the International Conference on Automated Planning and Scheduling 25 (April 8, 2015): 244–48. http://dx.doi.org/10.1609/icaps.v25i1.13704.

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Greedy Best First Search (GBFS) is a powerful algorithm at the heart of many state-of-the-art satisficing planners. The Greedy Best First Search with Local Search (GBFS-LS) algorithm adds exploration using a local GBFS to a global GBFS. This substantially improves performancefor domains that contain large uninformative heuristic regions (UHR), such as plateaus or local minima. This paper analyzes, quantifies and improves the performance of GBFS-LS.Planning problems with a mix of small and large UHRs are shown to be hard for GBFS but easy for GBFS-LS. In three standard IPC planning instances analyzed in detail, adding exploration using local GBFS gives more than three orders of magnitude speedup. As a second contribution, the detailed analysis leads to an improvedGBFS-LS algorithm, which replaces larger-scale local GBFS explorations with a greater number of smaller explorations.
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JIA, Cheng-zao, Zheng-zhang ZHAO, Jin-hu DU, Wen-zhi ZHAO, Cai-neng ZOU, and Su-yun HU. "PetroChina key exploration domains: geological cognition, core technology, exploration effect and exploration direction." Petroleum Exploration and Development 35, no. 4 (August 2008): 385–96. http://dx.doi.org/10.1016/s1876-3804(08)60087-7.

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SONG, Mingshui, Yongshi WANG, and Youqiang LI. "Division of “layer exploration unit” and high-efficiency exploration in mature exploration area." Petroleum Exploration and Development 45, no. 3 (June 2018): 544–52. http://dx.doi.org/10.1016/s1876-3804(18)30060-0.

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Zhou, Shuguang, Jinlin Wang, Wei Wang, and Shibin Liao. "Evaluation of Portable X-ray Fluorescence Analysis and Its Applicability As a Tool in Geochemical Exploration." Minerals 13, no. 2 (January 24, 2023): 166. http://dx.doi.org/10.3390/min13020166.

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Large-scale, high-density geochemical explorations entail enormous workloads and high costs for sample analysis, but, for early mineral exploration, absolute concentrations are not essential. Geochemists require ranges, dynamics of variation, and correlations for early explorations rather than absolute accuracy. Thus, higher work efficiency and lower costs for sample analysis are desirable for geochemical exploration. This study comprehensively analyzed the reliability and applicability of portable X-ray fluorescence (pXRF) spectrometry in geochemical exploration. The results show that pXRF can be applied effectively to rock and rock powder samples, and sample preparation and a longer detection time have been shown to increase the precision of the pXRF results. When pXRF is used on rock samples, if less than 30% of the samples are assessed as containing an element, the element is usually undetectable using pXRF when these rock samples are prepared as rock powders, indicating that the data about the detected element are unreliable; thus, it is suggested that some representative samples should be selected for testing before starting to use a pXRF in a geochemical exploration project. In addition, although the extended detection time increased the reliability of the analysis results, an increase in detection time of more than 80 s did not significantly affect the accuracy of the results. For this reason, the recommended detection time for the pXRF analysis of rock powder samples is 80 s for this study. pXRF has the advantages of being low-cost, highly efficient, and stable, and its results are reliable enough to exhibit the spatial distribution of indicator elements (arsenic, nickel, lead, sulfur, titanium, and zinc) in polymetallic mineralization exploration. Therefore, pXRF is recommendable for practical use in geochemical exploration.
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Ahn, Si-Nae, Jeong-Weon Lee, and Sujin Hwang. "Tactile Perception for Stroke Induce Changes in Electroencephalography." Hong Kong Journal of Occupational Therapy 28, no. 1 (December 2016): 1–6. http://dx.doi.org/10.1016/j.hkjot.2016.10.001.

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Objective/Background Tactile perception is a basic way to obtain and evaluate information about an object. The purpose of this study was to examine the effects of tactile perception on brain activation using two different tactile explorations, passive and active touches, in individuals with chronic hemiparetic stroke. Methods Twenty patients who were diagnosed with stroke (8 right brain damaged, 12 left brain damaged) participated in this study. The tactile perception was conducted using passive and active explorations in a sitting position. To determine the neurological changes in the brain, this study measured the brain waves of the participants using electroencephalography (EEG). Results The relative power of the sensory motor rhythm on the right prefrontal lobe and right parietal lobe was significantly greater during the active tactile exploration compared to the relative power during the passive exploration in the left damaged hemisphere. Most of the measured brain areas showed nonsignificantly higher relative power of the sensory motor rhythm during the active tactile exploration, regardless of which hemisphere was damaged. Conclusion The results of this study provided a neurophysiological evidence on tactile perception in individuals with chronic stroke. Occupational therapists should consider an active tactile exploration as a useful modality on occupational performance in rehabilitation training.
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Zhang, Lieping, Liu Tang, Shenglan Zhang, Zhengzhong Wang, Xianhao Shen, and Zuqiong Zhang. "A Self-Adaptive Reinforcement-Exploration Q-Learning Algorithm." Symmetry 13, no. 6 (June 11, 2021): 1057. http://dx.doi.org/10.3390/sym13061057.

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Directing at various problems of the traditional Q-Learning algorithm, such as heavy repetition and disequilibrium of explorations, the reinforcement-exploration strategy was used to replace the decayed ε-greedy strategy in the traditional Q-Learning algorithm, and thus a novel self-adaptive reinforcement-exploration Q-Learning (SARE-Q) algorithm was proposed. First, the concept of behavior utility trace was introduced in the proposed algorithm, and the probability for each action to be chosen was adjusted according to the behavior utility trace, so as to improve the efficiency of exploration. Second, the attenuation process of exploration factor ε was designed into two phases, where the first phase centered on the exploration and the second one transited the focus from the exploration into utilization, and the exploration rate was dynamically adjusted according to the success rate. Finally, by establishing a list of state access times, the exploration factor of the current state is adaptively adjusted according to the number of times the state is accessed. The symmetric grid map environment was established via OpenAI Gym platform to carry out the symmetrical simulation experiments on the Q-Learning algorithm, self-adaptive Q-Learning (SA-Q) algorithm and SARE-Q algorithm. The experimental results show that the proposed algorithm has obvious advantages over the first two algorithms in the average number of turning times, average inside success rate, and number of times with the shortest planned route.
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Feder, Judy. "Rethinking Exploration." Journal of Petroleum Technology 72, no. 07 (July 1, 2020): 22–26. http://dx.doi.org/10.2118/0720-0022-jpt.

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Lee, Dongryun. "Map Exploration." Journal of Childhood Studies 41, no. 1 (May 5, 2016): 46. http://dx.doi.org/10.18357/jcs.v41i1.15697.

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Chatterjee, Sanjeev, and Amitava Kumar. "Ethnographic Exploration." Afterimage 27, no. 3 (November 1999): 6–7. http://dx.doi.org/10.1525/aft.1999.27.3.6a.

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Payne, Nicholas. "Environmental exploration." Nursing Standard 4, no. 38 (June 13, 1990): 42. http://dx.doi.org/10.7748/ns.4.38.42.s39.

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Weninger, Markus, Elias Gander, and Hanspeter Mössenböck. "Guided Exploration." Proceedings of the ACM on Human-Computer Interaction 5, EICS (May 27, 2021): 1–34. http://dx.doi.org/10.1145/3461731.

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Many monitoring tools that help developers in analyzing the run-time behavior of their applications share a common shortcoming: they require their users to have a fair amount of experience in monitoring applications to understand the used terminology and the available analysis features. Consequently, novice users who lack this knowledge often struggle to use these tools efficiently. In this paper, we introduce the guided exploration (GE) method that aims to make interactive monitoring tools easier to use and learn. In general, tools that implement GE should provide four support operations on each analysis step: they should automatically (1) detect and (2) highlight the most important information on the screen, (3) explain why it is important, and (4) suggest which next steps are appropriate. This way, tools guide users through their analysis processes, helping them to explore the root cause of a problem. At the same time, users learn the capabilities of the tool and how to use them efficiently. We show how GE can be implemented in new monitoring tools as well as how it can be integrated into existing ones. To demonstrate GE's feasibility and usefulness, we present how we extended the memory monitoring tool AntTracks to provided guided exploration support during memory leak analysis and memory churn analysis. We use these guidances in two user scenarios to inspect and improve the memory behavior of the monitored applications. We hope that our contribution will help usability researchers and developers in making monitoring tools more novice-friendly by improving their usability and learnability.
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Friedman, Louis. "Planet Exploration." Science 244, no. 4904 (May 5, 1989): 515. http://dx.doi.org/10.1126/science.244.4904.515.a.

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Kidwell, Jeannie, Richard M. Dunham, Roderick A. Bacho, Ellen Pastorino, and Pedro R. Portes. "Identity Exploration." Gifted Child Today 18, no. 1 (January 1995): 18–42. http://dx.doi.org/10.1177/107621759501800107.

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Dellinger, J. H. "Space Exploration." Proceedings of the IEEE 86, no. 9 (September 1998): 1889. http://dx.doi.org/10.1109/jproc.1998.705535.

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Flintoft, Louisa. "Polar exploration." Nature Reviews Microbiology 2, no. 7 (July 2004): 526. http://dx.doi.org/10.1038/nrmicro939.

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Wallis, Jonathan D. "Polar exploration." Nature Neuroscience 13, no. 1 (January 2010): 7–8. http://dx.doi.org/10.1038/nn0110-7.

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McNutt, Marcia. "Ocean Exploration." Oceanography 15, no. 1 (2002): 112–21. http://dx.doi.org/10.5670/oceanog.2002.42.

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Galvin, James. "On Exploration." Iowa Review 24, no. 1 (January 1994): 132. http://dx.doi.org/10.17077/0021-065x.4720.

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37

Schwebel, D. "EXPLORATION REVIEW." APPEA Journal 43, no. 2 (2003): 93. http://dx.doi.org/10.1071/aj02066.

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Both exploration expenditure and drilling were significantly down in 2002 in comparison to 2001. This quiet phase is primarily due to the evaluation of the 2001 drilling and seismic results which should lead, in the long term, to the next cycle of prospect drilling and re-evaluation.The amount of onshore 2D seismic acquisition data gathered was similar to 2001 with most data acquired primarily in the producing basins.Offshore seismic acquisition was down markedly due the completion of a number of major 3D surveys. These data are now in the processing and interpretation phase and when completed will identify the next drilling candidates.The continued success story of the offshore Otway Basin has re-invigorated exploration interest in Australia’s southern margins with exploration continuing to ramp up in the Bight Basin. In the west, the further evaluation of the offshore Perth Basin indicates renewed interest as a result of the Cliff Head discovery.
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Shoresh, Noam, and Bang Wong. "Data exploration." Nature Methods 9, no. 1 (December 28, 2011): 5. http://dx.doi.org/10.1038/nmeth.1829.

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Greaves, Sarah. "Polar exploration." Nature Cell Biology 4, no. 11 (November 2002): E256. http://dx.doi.org/10.1038/ncb1102-e256.

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Jamison, Rex L. "Space exploration." American Journal of Physiology-Renal Physiology 309, no. 12 (December 15, 2015): F1003—F1004. http://dx.doi.org/10.1152/ajprenal.00418.2015.

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Barkai, Eli. "Universal exploration." Nature Physics 11, no. 10 (August 3, 2015): 807–8. http://dx.doi.org/10.1038/nphys3445.

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Stebbins, Robert A. "Concatenated Exploration." Journal of Contemporary Ethnography 35, no. 5 (October 2006): 483–94. http://dx.doi.org/10.1177/0891241606286989.

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Russell, R. D., K. E. Butler, A. W. Kepic, and M. Maxwell. "Seismoelectric exploration." Leading Edge 16, no. 11 (November 1997): 1611–15. http://dx.doi.org/10.1190/1.1437536.

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Carr, Michael H., and James Garvin. "Mars exploration." Nature 412, no. 6843 (July 2001): 250–53. http://dx.doi.org/10.1038/35084200.

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Naderi, F., D. J. McCleese, and J. F. Jordan. "Mars exploration." IEEE Robotics & Automation Magazine 13, no. 2 (June 2006): 72–82. http://dx.doi.org/10.1109/mra.2006.1638018.

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Knudsen, Thorbjørn, and Kannan Srikanth. "Coordinated Exploration." Administrative Science Quarterly 59, no. 3 (May 29, 2014): 409–41. http://dx.doi.org/10.1177/0001839214538021.

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Anonymous. "Exploration Project." Eos, Transactions American Geophysical Union 70, no. 46 (1989): 1489. http://dx.doi.org/10.1029/eo070i046p01489-01.

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Jakob, Wenzel, and Steve Marschner. "Manifold exploration." ACM Transactions on Graphics 31, no. 4 (August 5, 2012): 1–13. http://dx.doi.org/10.1145/2185520.2185554.

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Moretti, Jean-Luc, and Georges Baillet. "Exploration cérébrale." Revue Générale Nucléaire, no. 5 (September 1993): 334–38. http://dx.doi.org/10.1051/rgn/19935334.

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Moretti, Jean-Luc, and Georges Baillet. "Exploration rénale." Revue Générale Nucléaire, no. 5 (September 1993): 339–44. http://dx.doi.org/10.1051/rgn/19935339.

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