Improving the drought tolerance in rice (Oryza sativa L.) by exogenous application of vanillic acid and p-hydroxybenzoic acid

Nguyen Thanh Quan,Do Tan Khang,Nguyen Van Quan,Truong Ngoc Minh,Tran Dang Xuan 한국작물학회 2017 한국작물학회 학술발표대회 논문집 Vol.2017 No.-

Social Media based Real-time Event Detection by using Deep Learning Methods

Van Quan Nguyen,Hyung-Jeong Yang,Young-chul Kim,Soo-hyung Kim,Kyungbaek Kim 한국스마트미디어학회 2017 스마트미디어저널 Vol.6 No.3

Event detection using social media has been widespread since social network services have been an active communication channel for connecting with others, diffusing news message. Especially, the real-time characteristic of social media has created the opportunity for supporting for real-time applications/systems. Social network such as Twitter is the potential data source to explore useful information by mining messages posted by the user community. This paper proposed a novel system for temporal event detection by analyzing social data. As a result, this information can be used by first responders, decision makers, or news agents to gain insight of the situation. The proposed approach takes advantages of deep learning methods that play core techniques on the main tasks including informative data identifying from a noisy environment and temporal event detection. The former is the responsibility of Convolutional Neural Network model trained from labeled Twitter data. The latter is for event detection supported by Recurrent Neural Network module. We demonstrated our approach and experimental results on the case study of earthquake situations. Our system is more adaptive than other systems used traditional methods since deep learning enables to extract the features of data without spending lots of time constructing feature by hand. This benefit makes our approach adaptive to extend to a new context of practice. Moreover, the proposed system promised to respond to acceptable delay within several minutes that will helpful mean for supporting news channel agents or belief plan in case of disaster events.

Landscapes and Ecosystems of Tropical Limestone: Case Study of the Cat Ba Islands, Vietnam

Van, Quan Nguyen,Duc, Thanh Tran,Van, Huy Dinh The Ecological Society of Korea 2010 Journal of Ecology and Environment Vol.33 No.1

The Cat Ba Islands in Hai Phong City, northern Vietnam, consist of a large limestone island with a maximum height of 322 m above sea level and 366 small limestone islets with a total area of about $180\;km^2$. The islands are relicts of karst limestone mountains that became submerged during the Holocene transgression 7000 - 8000 year ago. The combination of the longtime karst process and recent marine processes in the monsoonal tropical zone has created a very diversity landscape on the Cat Ba Islands that can be divided into 3 habitat types with 16 forms. The first habitat type is the karst mountains and hills, including karst mountains and hills, karst valleys and dolines, karst lakes, karst caves, and old marine terraces. The second habitat type is the limestone island coast, including beaches, mangrove marshes, tidal flats, rocky coasts, marine notch caves, marine karst lakes, and bights. The third habitat type is karst plains submerged by the sea, including karst cones (fengcong) and towers (fengling), bedrock exposed on the seabed, sandy mud seabed, and submerged channels. Like the landscape, the biodiversity is also high in ecosystems composed of scrub cover - bare hills, rainy tropical forests, paddy fields and gardens, swamps, caves, beaches, mangrove forests, tidal flats, rocky coasts, marine krast lakes, coral reefs, hard bottoms, seagrass beds and soft bottoms. The ecosystems on the Cat Ba Islands that support very high species biodiversity include tropical evergreen rainforests, soft bottoms; coral reefs, mangrove forests, and marine karst lakes. A total of 2,380 species have been recorded in the Cat Ba Islands, included 741 species of terrestrial plants; 282 species of terrestrial animals; 30 species of mangrove plants; 287 species of phytoplankton; 79 species of seaweed; 79 species of zooplankton; 196 species of marine fishes; 154 species of corals; and 538 species of zoobenthos. Many of these species are listed in the Red Book of Vietnam as endangered species, included the white-headed or Cat Ba langur (Trachypithecus poliocephalus), a famous endemic species. Human activities have resulted in significantly changes to the landscape end ecosytems of the Cat Ba islands; however, many natural aspects of the islandsd have been preserved. For this reason, the Cat Ba Islands were recognized as a Biological Reserved Area by UNESCO in 2004.

Landscapes and Ecosystems of Tropical Limestone: Case Study of the Cat Ba Islands, Vietnam

Quan Nguyen Van,Thanh Tran Duc,Huy Dinh Van 한국생태학회 2010 Journal of Ecology and Environment Vol.33 No.1

The Cat Ba Islands in Hai Phong City, northern Vietnam, consist of a large limestone island with a maximum height of 322 m above sea level and 366 small limestone islets with a total area of about 180 km2. The islands are relicts of karst limestone mountains that became submerged during the Holocene transgression 7000 – 8000 year ago. The combination of the longtime karst process and recent marine processes in the monsoonal tropical zone has created a very diversity landscape on the Cat Ba Islands that can be divided into 3 habitat types with 16 forms. The first habitat type is the karst mountains and hills, including karst mountains and hills, karst valleys and dolines, karst lakes, karst caves, and old marine terraces. The second habitat type is the limestone island coast, including beaches, mangrove marshes, tidal flats, rocky coasts, marine notch caves, marine karst lakes, and bights. The third habitat type is karst plains submerged by the sea, including karst cones (fengcong) and towers (fengling), bedrock exposed on the seabed, sandy mud seabed, and submerged channels. Like the landscape, the biodiversity is also high in ecosystems composed of scrub cover – bare hills,rainy tropical forests, paddy fields and gardens, swamps, caves, beaches, mangrove forests, tidal flats, rocky coasts, marine krast lakes, coral reefs, hard bottoms, seagrass beds and soft bottoms. The ecosystems on the Cat Ba Islands that support very high species biodiversity include tropical evergreen rainforests, soft bottoms; coral reefs, mangrove forests, and marine karst lakes. A total of 2,380 species have been recorded in the Cat Ba Islands, included 741 species of terrestrial plants; 282 species of terrestrial animals; 30 species of mangrove plants; 287 species of phytoplankton; 79 species of seaweed; 79 species of zooplankton; 196 species of marine fishes; 154 species of corals; and 538 species of zoobenthos. Many of these species are listed in the Red Book of Vietnam as endangered species, included the white-headed or Cat Ba langur (Trachypithecus poliocephalus), a famous endemic species. Human activities have resulted in significantly changes to the landscape end ecosytems of the Cat Ba islands; however, many natural aspects of the islandsd have been preserved. For this reason, the Cat Ba Islands were recognized as a Biological Reserved Area by UNESCO in 2004.

Hadoop-based System for Analysis Big Social Sensor Data

Van Quan Nguyen,Linh Van Ma,Jinsul Kim 한국정보기술학회 2018 Proceedings of KIIT Conference Vol.2018 No.6

요즘 많은 분석 데이터가 많은 업무에서 중요 해지고 있습니다. 데이터는 산업 시스템의 과학, 의학, 기상, 금융, 마케팅 또는 센서 데이터 일 수도 있고 소셜 네트워크의 소셜 데이터 일 수도 있습니다. Hadoop 프레임워크는 현재 분산 데이터뿐 아니라 대용량 데이터 처리를위한 최상의 선택이되고 있습니다. 이 백서에서는 Hadoop 분산 파일 시스템 (HDFS)에 MapReduce 기반 아키텍처를 배포하여 여러 사용자가 재난에 대해 수집한 사회적 센서 데이터를 처리합니다. 기상청이 예상하고 예측하고 주민에게 경고문을 게시하려면이 큰 데이터를 실시간으로 수집, 저장 및 처리해야합니다. Nowadays large analysis amount of data has become important for many tasks. Data could be scientific, medical, meteorological, financial, marketing or sensor data from industrial system even social data from the social network. Hadoop framework is currently becoming the best choice for big data processing as well as distributed data. This paper deployed MapReduce based architecture on Hadoop Distributed File System (HDFS) to process social sensor data which is collected from multiple users about the disaster. Real-time collecting, storing and processing of this big data is necessary for the meteorological department to forecast as well as publish the warning to residents.

Deep Learning-based Approach to Smart Factory

Van Quan Nguyen,Linh Van Ma,Jinsul Kim 한국정보기술학회 2018 Proceedings of KIIT Conference Vol.2018 No.6

스마트 제조는 수집, 분석, 시각화 및 의사 결정에서의 시스템 성능 향상을 의미합니다. 우리는 장치 기반 및 네트워크 기반 기술뿐만 아니라 센서 데이터 조작에 있어 고급 프로세스를 시작하기 위해 기계 학습을 널리 사용하는 것을 목격 해 왔습니다. 이 글에서는 산업용 시스템의 센서 데이터를 분석하기위한 LSTM 아키텍처 기반의 반복적 인 신경망을 제시합니다. 시계열 데이터는 타임 라인에 따라 개체의 상태에 반영되기 때문에 많은 시스템에서 중요한 부분이 되었습니다. 왜 우리가 반복적 인 신경망을 데이터의 순서를 탐색하는 솔루션으로 사용하는지에 대한 주된 이유. LSTM 신경 회로망의 응용을 증명하기 위해 이상 검출 알고리즘을 제안하고 여러 데이터 집합에서 수행한다. Smart manufacturing refers to using advanced techniques in collecting, analyzing, visualization and decision making in management to improve system’s performance. We have been witnessing the widespread of machine learning to launch advanced process in the manipulation of sensor data as well as managing devices and productions based on network technologies. This article presents recurrent neural network with LSTM architecture-based approach to analyzing sensor data for the industrial system. Using time series data has become a critical part of many systems because this explored information reflect the state of objects according to the timeline. This is the major reason why we use Recurrent Neural Networks as a solution to explore the sequence of data. In order to prove the application of LSTM neural network, anomaly detection algorithm is proposed and perform on time series datasets.

Vision Sensor-Based Driving Algorithm for Indoor Automatic Guided Vehicles

Quan Nguyen Van,Hyuk-Min Eum,Jeisung Lee,Chang-Ho Hyun 한국지능시스템학회 2013 INTERNATIONAL JOURNAL of FUZZY LOGIC and INTELLIGE Vol.13 No.2

In this paper, we describe a vision sensor-based driving algorithm for indoor automatic guided vehicles (AGVs) that facilitates a path tracking task using two mono cameras for navigation. One camera is mounted on vehicle to observe the environment and to detect markers in front of the vehicle. The other camera is attached so the view is perpendicular to the floor, which compensates for the distance between the wheels and markers. The angle and distance from the center of the two wheels to the center of marker are also obtained using these two cameras. We propose five movement patterns for AGVs to guarantee smooth performance during path tracking: starting, moving straight, pre-turning, left/right turning, and stopping. This driving algorithm based on two vision sensors gives greater flexibility to AGVs, including easy layout change, autonomy, and even economy. The algorithm was validated in an experiment using a two-wheeled mobile robot.

LSTM-based Anomaly Detection on Big Data for Smart Factory Monitoring

Van Quan Nguyen,Linh Van Ma,Jinsul Kim(김진술) 한국디지털콘텐츠학회 2018 한국디지털콘텐츠학회논문지 Vol.19 No.4

Social Media based Real-time Event Detection by using Deep Learning Methods

Nguyen, Van Quan,Yang, Hyung-Jeong,Kim, Young-chul,Kim, Soo-hyung,Kim, Kyungbaek THE KOREAN INSTITUTE OF SMART MEDIA 2017 스마트미디어저널 Vol.6 No.3

Event detection using social media has been widespread since social network services have been an active communication channel for connecting with others, diffusing news message. Especially, the real-time characteristic of social media has created the opportunity for supporting for real-time applications/systems. Social network such as Twitter is the potential data source to explore useful information by mining messages posted by the user community. This paper proposed a novel system for temporal event detection by analyzing social data. As a result, this information can be used by first responders, decision makers, or news agents to gain insight of the situation. The proposed approach takes advantages of deep learning methods that play core techniques on the main tasks including informative data identifying from a noisy environment and temporal event detection. The former is the responsibility of Convolutional Neural Network model trained from labeled Twitter data. The latter is for event detection supported by Recurrent Neural Network module. We demonstrated our approach and experimental results on the case study of earthquake situations. Our system is more adaptive than other systems used traditional methods since deep learning enables to extract the features of data without spending lots of time constructing feature by hand. This benefit makes our approach adaptive to extend to a new context of practice. Moreover, the proposed system promised to respond to acceptable delay within several minutes that will helpful mean for supporting news channel agents or belief plan in case of disaster events.

Improving the drought tolerance in rice (Oryza sativa L.) by exogenous application of vanillic acid and p-hydroxybenzoic acid

Nguyen Thanh Quan,Do Tan Khang,Nguyen Van Quan,Truong Ngoc Minh,Tran Dang Xuan 한국작물학회 2017 한국작물학회 학술발표대회 논문집 Vol.2017 No.-