• 디지털산업정보학회논문지
• /
• 제9권4호
• /
• pp.155-165
• /
• 2013

For the service and creation of new space, the next generation smart device for interactive space using tailor-made contents process serve as an opportunity for the growth of new special display due to the integration of the latest digital technology. The application of next generation technology is in the field that most people expect. So, this thesis serving as the beginning, it is hoped that the smart mirror and wall industry in Korea will play a practical and academic momentum. An interactive environment which is the smart device can be realized when space displays based on smart device built on the experience of the user can provide various tailor-made processes such as academics, performances, meetings, virtual experience, exhibits and promotion, and through this a strategic direction was suggested for the development of each field.

• 한국전자통신학회논문지
• /
• 제6권4호
• /
• pp.505-509
• /
• 2011

홈 네트워크 시스템은 조명, 가스, 난방 기기 등 가정 내의 다양한 정보기기들을 네트워크로 연결하여 집안내부에서 제어하고 휴대폰 또는 스마트 폰 그리고 개인용 컴퓨터로 외부에서 제어할 수 있다. 홈 네트워크 시스템을 구성하는 통합 서버와 월 패드는 고가이고 네트워크 인프라를 구축하여야 하는 단점이 있다. 본 논문에서는 이러한 홈 네트워크의 단점을 보완하는 스마트 폰을 이용한 지능형 홈 네트워크 시스템을 제안하였다. 현재 널리 보급된 스마트 폰은 고 사양 입출력 장치로 기존 월 패드의 사용자 인터페이스 부분인 디스플레이와 터치스크린을 대체하고, 홈 네트워크의 관리 및 제어 기능을 스마트 폰에 집중함으로써 저비용으로 보급형 월패드를 구현하였다.

• 한국정보통신학회:학술대회논문집
• /
• 한국해양정보통신학회 2011년도 춘계학술대회
• /
• pp.351-354
• /
• 2011

홈 네트워크 시스템은 조명, 가스, 난방 기기 등 가정 내의 다양한 정보기기들을 네트워크로 연결하여 집안 내부에서 제어하고 개인용 컴퓨터, 휴대폰 또는 스마트 폰으로 외부에서도 제어할 수 있도록 한다. 홈 네트워크 시스템을 구성하는 통합 서버와 월패드가 고가이고 네트워크 인프라를 구축하여야 하는 단점이 있다. 또한 서버에 문제가 발생할 경우 집안 내부 기기들의 제어가 불가능하거나 기기들이 오작동을 일으킬 수 있는 위험도 있다. 본 논문에서는 이러한 홈 네트워크 시스템의 단점을 보완하는 스마트 폰을 이용한 지능형 홈 네트워크 시스템을 제안한다. 현재 널리 보급된 스마트 폰은 고사양 입출력 장치로 기존 월패드의 사용자 인터페이스 부분인 디스플레이와 터치스크린을 대처하고, 홈 네트워크의 관리 및 제어기능을 스마트 폰에 집중한 보급형 홈 네트워크 시스템을 제안한다.

• Steel and Composite Structures
• /
• 제31권6호
• /
• pp.629-640
• /
• 2019

The investigation of retaining wall structures behavior under dynamic loads is considered as one of important parts for designing such structures. Generally, the performance of these structures is under the influence of the environment conditions and their geometry. The aim of this research is to design retaining wall structures based on smart and optimal systems. The use of accuracy and speed to assess the structures under different conditions is one of the important parts sought by designers. Therefore, optimal and smart systems are able to have better addressing these problems. Using numerical and coding methods, this research investigates the retaining wall structure design under different dynamic conditions. More than 9500 models were constructed and considered for modelling design. These designs include height and thickness of the wall, soil density, rock density, soil friction angle, and peak ground acceleration (PGA) variables. Accordingly, a neural network system was developed to establish an appropriate relationship between data to obtain safety factor (SF) of retaining walls under different seismic conditions. Different parameters were analyzed and the effect of each parameter was assessed separately. According to these analyses, the structure optimization was performed to increase the SF values. The optimal and smart design showed that under different PGA conditions, the structure performance can be appropriately improved while utilization of the initial (or basic) parameters leads to the structure failure. Therefore, by increasing accuracy and speed, smart methods could improve the retaining structure performance in controlling the wall failure. The intelligent design process of this study can be applied to some other civil engineering applications such as slope stability.

• 한국건축시공학회:학술대회논문집
• /
• 한국건축시공학회 2018년도 추계 학술논문 발표대회
• /
• pp.8-9
• /
• 2018

3D printing has the unique advantage of the ability to customize freeform product even in small quantity. However, we need to select and apply the only necessary parts of it because of the high cost of the manufacturing technology. It is of critical importance in irregular-shaped curtain walls to ensure precision of construction as well as quality fo finish. Complex shape that have structural members at varying angles can have nodes of different shapes making it unfeasible to construct using a general node connection detail. Therefore, this study aims to utilize smart node system using 3D printing as a solution to complex irregular-shaped curtain wall design.

• 한국인터넷방송통신학회논문지
• /
• 제16권1호
• /
• pp.199-207
• /
• 2016

본 논문에서는 안드로이드 플랫폼 기반의 스마트 감성조명 제어 시스템을 제안한다. 제안된 스마트 실내 감성조명 제어 시스템은 생체신호 측정기기와 이동식 스마트 월 패드, 조명 드라이버, 조명기기로 구성하였다. 제어 시스템은 생체신호를 측정하여 감정어휘를 추출하고, 월 패드에서 블루투스를 이용하여 각 조명 드라이버에 제어신호를 조명 드라이버에 전송하며, 조명 드라이버는 제어신호와 주변의 조도정보를 수집하여 확장보드를 통해 조명기기를 제어하도록 설계하였다. 이때, 월 패드에서는 실내 감성조명 제어 알고리즘에 의한 수동제어와 생체신호 모드 선택이 가능하고, 원하는 조명을 선택하여 부분적인 제어도 가능하게 제어 프로그램을 구현하였다. 제안된 스마트 실내 감성조명 제어 시스템의 실험 결과, 필요로 하는 영역의 조명기기에 대하여 선택적 제어와 색온도 가변에 의한 수동 제어와 생체신호 및 감성어휘에 의한 효율적 가변점등을 할 수 있었다. 따라서 상황에 적합한 색상과 밝기를 제어하여 실내 공간 업무 행위에 있어 집중력 및 업무능력 향상을 위한 효과적인 제어가 가능하였다. 그리고 기존 감성조명 제어 시스템보다 전력 소비 및 디머전압, 전격전류를 감소시켰다.

• International journal of advanced smart convergence
• /
• 제5권2호
• /
• pp.18-23
• /
• 2016

Cell walls of microalgae consist of a polysaccharide and glycoprotein matrix providing the cells with a formidable defense against its environment. Anaerobic digestion (AD) of microalgae is primarily inhibited by the chemical composition of their cell walls containing biopolymers able to resist bacterial degradation. Adoption of pre-treatments such as thermal, thermal hydrolysis, ultrasound and enzymatic hydrolysis have the potential to remove these inhibitory compounds and enhance biogas yields by degrading the cell wall, and releasing the intracellular algogenic organic matter (AOM). This paper preproposal stage investigated the effect of different pre-treatments on microalgae cell wall, and their impact on the quantity of soluble biomass released in the media and thus on the digestion process yields. This Paper present optimum approach to degradation of the cell wall by ultra-sonication with practical design specification parameter for ultrasound based pretreatment system. As a result of this paper presents, a microalgae system in a wastewater treatment flowsheet for residual nutrient uptake can be justified by processing the waste biomass for energy recovery. As a conclusion on this result, Low energy harvesting technologies and pre-treatment of the algal biomass are required to improve the overall energy balance of this integrated system.

• 한국건축시공학회:학술대회논문집
• /
• 한국건축시공학회 2015년도 추계 학술논문 발표대회
• /
• pp.168-169
• /
• 2015

SMART Frame is a composite precast concrete structure system to deliver the advantages of both steel frame and reinforced concrete. Many studies have established to date that SMART Frame is more advantageous than conventional frame-type structure in terms of structural stability, constructability, economic viability as well as reduction of construction schedule. However, such studies have focused primarily on wall-type or flat slab-type apartment housing structures, failing to include Rahmen structures in their scope. Accordingly, this study aims to analyze the benefits of potential application of SMART Frame to RC Rahmen structures. As the structural stability and constructability of SMART Frame is already proven, this study reviews its benefits from the perspective of cost reduction. Conclusion of this study will be used subsequently in predicting the benefits of SMART Frame when it is adapted to RC Rahmen structures.

• Smart Structures and Systems
• /
• 제24권4호
• /
• pp.491-506
• /
• 2019

Literature regarding concrete walls reinforced by super elastic shape memory alloy (SMA) bars is rather limited. The seismic behavior of a system concurrently including a distinct steel reinforced concrete (RC) wall, as well as another wall reinforced by super elastic SMA at the first story, and steel rebar at upper stories, would be an interesting matter. In this paper, the seismic response of such a COMBINED system is compared to a conventional system with steel RC concrete walls (STEEL-Rein.) and also to a wall system with SMA rebar at the first story and steel rebar at other stories ( SMA-Rein.). Nonlinear time history analysis at maximum considered earthquake (MCE) and design bases earthquake (DBE) levels is conducted and the main responses like maximum inter-story drift ratio and residual inter-story drift ratio are investigated. Furthermore, incremental dynamic analysis is used to accomplish probabilistic seismic studies by creating fragility curves. Results demonstrated that the SMA-Rein. system, subjected to DBE and MCE ground motions, has almost zero and 0.27% residual maximum inter-story drifts, while the values for the COMBINED system are 0.25% and 0.51%. Furthermore, fragility curves show that using SMA rebar at the base of all walls causes a larger probability of exceedance 3% inter-story drift limit state compared to the COMBINED system. Static push over analysis demonstrated that the strength of the COMBINED model is almost 0.35% larger than that of the two other models, and its general post-yielding stiffness is also approximately twice the corresponding stiffness of the two other models.

• Nuclear Engineering and Technology
• /
• 제56권3호
• /
• pp.1066-1080
• /
• 2024

SMART100 has a containment pressure and radioactivity suppression system (CPRSS) for passive containment cooling system (PCCS). This prevents overheating and over-pressurization of a containment through direct contact condensation in an in-containment refueling water storage tank (IRWST) and wall condensation in a CPRSS heat exchanger (CHX) in an emergency cool-down tank (ECT). The Korea Atomic Energy Research Institute (KAERI) constructed scaled-down test facilities, SISTA1 and SISTA2, for the thermal-hydraulic validation of the SMART100 CPRSS. Three separate effect tests were performed using SISTA1 to confirm the heat removal characteristics of SMART100 CPRSS. When the low mass flux steam with or without non-condensable gas is released into an IRWST, the conditions for mitigation of the chugging phenomenon were identified, and the physical variables were quantified by the 3D reconstruction method. The local behavior of the non-condensable gas was measured after condensation inside heat exchanger using a traverse system. Stratification of non-condensable gas occurred in large tank of the natural circulation loop. SISTA2 was used to simulate a small break loss-of-coolant accident (SBLCOA) transient. Since the test apparatus was a metal tank, compensations of initial heat transfer to the material and effect of heat loss during long-term operation were important for simulating cooling performance of SMART100 CPRSS. The pressure of SMART100 CPRSS was maintained below the design limit for 3 days even under sufficiently conservative conditions of an SBLOCA transient.