This study was conducted to quantitatively verify whether payment motives and usage patterns differ according to the motivations of users of mobile character-collecting games. For this purpose, three user types were derived based on game motivation profiles tailored to mobile character-collecting games: Cluster 1 (Communicators), Cluster 2 (Character Collectors), and Cluster 3 (Competitors). It was confirmed that each cluster was mutually exclusive and exhibited different payment motives and usage patterns. These findings emphasize the value of a motivation-based segmentation strategy in understanding the behavior of mobile game users. Furthermore, based on the results of this study, game developers and publishers can more sophisticatedly tailor game content, monetization strategies, and marketing campaigns based on users' motivational profiles, rather than relying on simple demographic variables. Future research needs to expand the diversity of the sample by including a wider age range and considering a balanced gender distribution. Additionally, to gain a more in-depth understanding of the temporal changes in user motivation, future studies should explore potential causal relationships through a longitudinal research design.

In this paper, a water rescue mission system was developed for water safety management areas by utilizing unmanned mobility( drone systems) and AI-based visual recognition technology to enable automatic detection and localization of drowning persons, allowing timely response within the golden time. First, we detected suspected human subjects in daytime and nighttime videos, then estimated human skeleton-based poses to extract human features and patterns using LSTM models. After detecting the drowning person, we proposed an algorithm to obtain accurate GPS location information of the drowning person for rescue activities. In our experimental results, the accuracy of the Drown detection rate is 80.1% as F1-Score, and the average error of position estimation is about 0.29 meters.

본 논문에서는 2자유도 매니퓰레이터(manipulator)가 탑재된 지상형 이동 로봇을 활용한 균열 지도 작성 기법을 소개한다. 로봇의 앞·측면에 각각 스테레오 비전 센서를 설치하였으며, 앞면에 설치된 센서의 포인트 클라우드 정보를 이용하여 로봇의 위치를 인식하 고 지도를 작성하며, 측면에 설치된 센서의 영상 정보를 바탕으로 벽면 내 균열을 검출한다. 이때, 두 센서의 좌표계를 좌표 변환식을 통해 통일하여 정합 및 검출된 균열 정보를 생성된 지도에 실시간으로 표기하고, 손상의 정보가 기록 및 관리될 수 있도록 하였다. 2자 유도 움직임이 가능한 매니퓰레이터 장치를 이동로봇에 탑재하고 사각지역의 제한 없이 로봇의 진행 방향을 벗어난 균열을 촬영할 수 있도록 하였다. 촬영된 영상 내 딥러닝 기법을 적용하여 균열을 검출하고, 해당 균열이 촬영된 영상 내 일부만 존재한다고 판단하 는 경우 매니퓰레이터를 동작하여 남은 균열의 위치를 추정 및 추가 촬영, 스티칭할 수 있도록 하였다. 본 시스템의 성능 확인을 위하 여 실내 환경에서 실험을 진행하였으며, IoU기반 검출율 0.6 이상의 정확도로 실시간 균열 정보를 구축된 지도 위에 작성하는 것을 확 인하였다.

This study explored how teachers could provide support to enhance students’ out-ofclass mobile-assisted language learning (MALL) engagement. We interviewed five Korean English teachers who used Class Card, a focal technology of this study, for their students’ self-directed vocabulary learning. Additionally, students of the interviewed teachers completed a survey on their perceptions of teacher support and MALL engagement. This study has three major findings. First, the teachers adopted either a proactive or a passive approach to promoting students’ out-of-class MALL engagement, which was influenced by their beliefs about whether teachers or students should be responsible for learning beyond the classroom. Second, all teachers provided orientation and behavioral support to enhance out-of-class MALL engagement, although the consistency and intensity in providing this support varied between proactive and passive teachers. Finally, students who perceived higher levels of teacher support reported greater out-of-class MALL engagement. We discuss the importance of classroom-based teacher support to enhance MALL engagement beyond the classroom as pedagogical implications.

에듀테크 시대에 접어들면서 디지털 기술을 활용한 학습 방식이 점점 확대되고 있으며, 특히 모바일 기반 애플리케이션 을 활용한 학습이 적극적으로 도입되고 있다. 이러한 학습 방식은 학습자의 참여도를 높이고, 흥미를 유발하며, 학습 효율성 향상에 긍정적인 영향을 미치고 것으로 보고되고 있다. 본 연구는 자기공명영상학 학습에서 모바일 기반 애플리 케이션 사용에 대한 학습자들의 인식, 학습 효과, 학습 만족도를 알아보고자 하였다. 대구시 소재 S 대학교 자기공명영 상학을 수강한 2, 3학년 학생 70명을 대상으로 2024년 11월 24일부터 29일까지 수업 후 모바일 애플리케이션을 활용한 퀴즈 활동을 시행하였다. 연구 결과, 애플리케이션 활용에 대한 학습자들의 인식 평균 점수는 4.58±0.66, 학습 효과는 4.61±0.62, 학습 만족도는 4.58±0.65로 나타났다. 또한, 애플리케이션 활용 전후 비교 분석에서 인식 (활용 전 3.62±0.97, 활용 후 4.58±0.66), 학습 효과(활용 전 3.60±0.92, 활용 후 4.61±0.62), 학습 만족도(활용 전 3.64±0.93, 활용 후 4.58±0.65) 모두 통계적으로 유의한 차이가 있었다(p<0.05). 이러한 결과는 자기공명영상학 교육에서 모바일 애플리케이션 기반 학습이 학습자의 참여도, 이해도, 만족도를 높이는 데 효과적임을 시사한다. 따라서 자기공명영상학뿐만 아니라 다양한 전공 분야에서도 애플리케이션 기반 학습이 유용한 교육 도구로 활용될 수 있으며, 향후 교육 및 임상 실습 현장에서 적용 가능한 기초자료로 활용될 수 있을 것 기대된다.

The Molten Salt Reactor (MSR) is considered one of the most suitable technology for micro mobile reactors due to its low operating pressure (3 ~ 5 atmospheres), which reduces weight and volume compared to pressurized water reactors (PWRs). Unlike PWRs, MSRs use molten salt as both fuel and coolant, enabling compact and transportable designs. This study outlines the conceptual design of a micro mobile MSR and establishes safety criteria for transient states. It proposes strategies for managing the primary loop, intermediate heat transfer system, and air-cooled Balance of Plant (BOP) while addressing thermal and structural constraints, such as maximum temperatures and molten salt freezing points. Control approaches for reactor output and BOP systems are analyzed, highlighting fast response and adaptability to frequent power changes. The study also compares fixed-speed and variable-speed pump operations and provides a framework for operational modes, from high-temperature standby to transport-ready conditions. These findings offer a foundation for efficient, safe, and flexible MSR deployment.

In this article, to solve the problems about obsolescence of parts and unable to driving turret when internal components are failure, the DC-DC boost converter in the gun/turret drive system of mobile weapon was improved. The power converting circuit in converter is changed by applying the latest components, and the control circuit is changed from analog to digital. Also, the power converting circuits were modularized in three parallel so that it could be driven even when some components failed. The improved DC-DC boost converter secured stability such as converting to voltage in a linear manner in the entire section from the start of boosting to the end. Also, through the modular configuration, turret driving system can operates when some components failed.

In this study, power generation characteristics based on water flow dynamics in a pipe system with a mobile firefighting robot were analyzed using 3D CAD modeling and computational fluid dynamics(CFD) simulations. The water flow field which is significantly affected by applied pressure, generates mechanical torque at the turbine blades, enabling power generation. The inlet pressure of the flow field was set to approximately 6 to 12 bar, and the flow characteristics such as velocity, pressure, and mass flow rate, along with power generation characteristics, were analyzed under various turbine rotational velocities. It was observed that higher inlet pressures resulted in increased torque and mechanical power output at the turbine blades. This research is expected to serve as a fundamental design and data reference to improve the performance of firefighting robots at fire sites.

Effective mixing of different-sized aggregates in mobile asphalt plant dryers is crucial for ensuring high-quality, consistent asphalt production. This study explores the application of spatial analysis techniques, particularly the Discrete Element Method (DEM), to understand and optimize the mixing process of aggregates in drum dryers. The research emphasizes the importance of proper mixing to achieve uniform moisture removal and heating across various aggregate sizes. Larger aggregates heat more slowly, while finer particles risk overheating or being carried away by air currents, necessitating careful management of the mixing process. Using LIGGGHTS, an open-source simulation framework, we conducted DEM simulations to analyze the spatial distribution and behavior of aggregates within a 3D model of a drum dryer. The study considered multiple factors affecting mixing efficiency, including drum inclination, rotational speed, and aggregate feeding frequency. Results indicate that the rotational speed of the drum dryer has the most significant impact on mixing effectiveness. The DEM simulations provided valuable insights into particle movement, heat transfer, and potential segregation issues within the dryer. Further investigations into additional factors that may influence aggregate mixing in drum dryers is recommended, paving the way for improved efficiency and quality in asphalt manufacturing.

The diversity of smart EV(electric vehicle)-related industries is increasing due to the growth of battery-based eco-friendly electric vehicle component material technology, and labor-intensive industries such as logistics, manufacturing, food, agriculture, and service have invested in and studied automation for a long time. Accordingly, various types of robots such as autonomous mobile robots and collaborative robots are being utilized for each process to improve industrial engineering such as optimization, productivity management, and work management. The technology that should accompany this unmanned automobile industry is unmanned automatic charging technology, and if autonomous mobile robots are manually charged, the utility of autonomous mobile robots will not be maximized. In this paper, we conducted a study on the technology of unmanned charging of autonomous mobile robots using charging terminal docking and undocking technology using an unmanned charging system composed of hardware such as a monocular camera, multi-joint robot, gripper, and server. In an experiment to evaluate the performance of the system, the average charging terminal recognition rate was 98%, and the average charging terminal recognition speed was 0.0099 seconds. In addition, an experiment was conducted to evaluate the docking and undocking success rate of the charging terminal, and the experimental results showed an average success rate of 99%.

본 논문은 모바일 폰 사진을 활용하여 도시 공간에서 전력선과 건물 사이의 거리를 편리하게 모델링하고 측정하는 방법에 중점을 두고 있으며, 이에 대한 정확성을 평가하였다. 모바일 장 치용 2뷰 지오메트리를 사용한 전력선과 건물의 3D 재구성 방법을 설계하여 어디에서나 즉시 측정할 수 있도록 하였다. 특징점을 사용하여 전력선과 건물 사이의 거리를 계산하고 건물 정 보를 활용하여 게임 가상 공간에 전력선과 전주를 배치할 수 있다. 본 논문에서는 대전시 내 10개의 위치에서 실험을 실시하고, 상업용 시스템과 LiDAR가 있는 경우와 없는 경우를 포함 한 이전 방법과의 성능을 평가하였다. 우리의 방법을 스마트폰에 구현했기 때문에 장점은 휴 대성과 저렴함이다.

본 논문에서는 모바일 RPG 장르의 튜토리얼의 구성요소를 분석하고, 이를 바탕으로 모바일 RPG 튜토리얼 제작시 고려해야 하는 요소들에 관해 고찰하였다. 이를 위하여 먼저, 모바일 게 임의 UI 속성을 살펴보고, 게임 요소에 대한 선행연구를 통해 RPG 구성요소를 확인하였다. 다 음으로 이를 바탕으로 모바일 게임 <리니지M>과 <리니지2M>, <리니지2 레볼루션>, <검은사 막 모바일>과 PC 게임 <로스트아크>, <검은사막>의 초기 튜토리얼 구성요소를 비교 분석하였 다. 마지막으로, 분석 결과를 바탕으로 모바일 RPG 튜토리얼 구성요소에 대해 제안하였다. 첫 째, 모바일이나 PC 환경과 상관없이 RPG 튜토리얼 구성요소에 모두 포함되는 요소인, RPG 튜토리얼의 기본적인 요소를 포함한다. 둘째, 모바일 RPG의 경우 가상 인터페이스를 통한 게 임 플레이의 비중이 크다는 점을 고려하여 가상 인터페이스를 활용한 매개적 소통 방법에 대 한 요소를 게임에 맞게 포함한다. 셋째, 가상 인터페이스를 통한 게임 플레이가 게임 세계 자 체에 대한 몰입을 방해하는 부작용을 초래하지 않도록 플레이어의 직접적인 행동에 따른 NPC 리액션에 대한 요소를 강화하고, NPC Status와 몬스터에 대한 배경 스토리 정보를 포함한다.