HUMAN COMFORT OVER SRIHARIKOTA ISLAND

Some buildings hold certain qualities of space design similar to those originated from nature in harmony with its surroundings. These buildings, mostly associated with religious beliefs and practices, allow for human comfort and a unique state of mind. This paper aims to verify such effect on the human brain. It concentrates on measuring brain waves when the user is located in several spots (coordinates) in some of these buildings. Several experiments are conducted on selected case studies to identify whether certain buildings affect the brain wave frequencies of their users or not. These are measured in terms of Brain Wave Frequency Charts through EEG Device. The changes identified on the brain were then translated into a brain diagram that reflects the spiritual experience all through the trip inside the selected buildings. This could then be used in architecture to enhance such unique quality.

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RECYCLED BRICK SOUNDPROOF TEST AS AN ALTERNATIVE SUSTAINABLE MATERIAL

ULTIMART Jurnal Komunikasi Visual ◽

10.31937/ultimart.v13i2.1802 ◽

2020 ◽

Vol 13 (2) ◽

pp. 44-54

Author(s):

Hendrico Firzandy Latupeirissa ◽

Gierlang Bhakti Putra ◽

Niki Prastomo

Keyword(s):

Waste Disposal ◽

Sound Source ◽

Building Material ◽

Building Materials ◽

Negative Impact ◽

The Other ◽

Human Comfort ◽

Construction Waste ◽

Coarse Grains ◽

Made In

Brick debris that makes up the majority of construction waste has not received proper waste disposal in Indonesia. On the other hand, brick debris could be potentially reused as non-structural building materials to reduce its negative impact on the environment. This study aims to test the effectiveness of soundproofing on recycled brick debris. The soundproof test was carried out on brick debris in the form of fine and coarse grains. The simulation box is then used as a support for the brickwork material and then the box is exposed to a sound source with a certain level of noise that is considered disturbing human comfort. Noise level measurements are made in the outside and inside the box. These measurements are tabulated and then analyzed to see the success of the two aggregates in reducing noise. Basically, the brickwork material has succeeded in becoming a recycled building material that can absorb noise, although further research must be carried out to be able to state that this material is truly ready to be used as an alternative building material with good acoustic capabilities.

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A Methodology for Indoor Human Comfort Analysis Based on BIM and Ontology

10.22260/isarc2019/0159 ◽

2019 ◽

Author(s):

Weiwei Chen ◽

Keyu Chen ◽

Vincent J.L. Gan ◽

Jack C.P. Cheng

Keyword(s):

Human Comfort

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The study of urban factors in the human comfort system

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/962/3/032086 ◽

2020 ◽

Vol 962 ◽

pp. 032086

Author(s):

I V Cherunova ◽

A A Kuleshova ◽

N B Kokuashvili

Keyword(s):

Human Comfort

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Towards Class-Balancing Human Comfort Datasets with GANs

Proceedings of the 6th ACM International Conference on Systems for Energy-Efficient Buildings, Cities, and Transportation ◽

10.1145/3360322.3361016 ◽

2019 ◽

Author(s):

Matias Quintana ◽

Clayton Miller

Keyword(s):

Human Comfort

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Identifying factors that influenced wellbeing and learning effectiveness during the sudden transition into eLearning due to the COVID-19 lockdown

Work ◽

10.3233/wor-203358 ◽

2021 ◽

Vol 68 (1) ◽

pp. 45-67

Author(s):

Alessandro Naddeo ◽

Rosaria Califano ◽

Iolanda Fiorillo

Keyword(s):

Coming Out ◽

Online Courses ◽

Learning Effectiveness ◽

Who Guidelines ◽

Human Comfort ◽

Factors Influencing ◽

Rapid Changes ◽

Sudden Transition ◽

Teaching Learning ◽

Educational Delivery

BACKGROUND: The sanitary emergency due to COVID-19 virus obliged people to face up several changes in their everyday life becauseWorld Health Organisation (WHO) guidelines and countries' Health Systems imposed lockdown of activities and social distancing to flatten the infection curve. One of these rapid changes involved students and professors that had to turn the traditional "in presence" classes into online courses facing several problems for educational delivery. OBJECTIVES: This work aimed to investigate the factors that affected both teaching/learning effectiveness and general human comfort and wellbeing after the sudden transition from classrooms to eLearning platforms due to COVID-19 in Italy. METHODS: A workshop, involving students and experts of Human Factors and Ergonomics, has been performed to identify aspects/factors that could influence online learning. Then, from workshop output and literature studies, a survey composed of two questionnaires (one for students and one for teachers) has been developed and spread out among Italian universities students and professors. RESULTS: 700 people answered the questionnaires. Data have been analysed and discussed to define the most important changes due to the new eLearning approach. Absence of interactions with colleagues and the necessity to use several devices were some of the aspects coming out from questionnaires. CONCLUSIONS: The study shows an overview of factors influencing both teaching/learning effectiveness and general human comfort and wellbeing. Results could be considered as a basis for future investigation and optimization about the dependencies and correlations among identified factors and the characteristics of the products/interaction/environment during eLearning courses.

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Determining Shape and Size of Personal Space of a Human when Passed by a Robot

International Journal of Social Robotics ◽

10.1007/s12369-021-00805-6 ◽

2021 ◽

Author(s):

Margot M. E. Neggers ◽

Raymond H. Cuijpers ◽

Peter A. M. Ruijten ◽

Wijnand A. IJsselsteijn

Keyword(s):

Mobile Robots ◽

Humanoid Robot ◽

Personal Space ◽

Human Robot Interaction ◽

Autonomous Mobile Robots ◽

Robot Interaction ◽

Human Comfort ◽

Navigation Algorithms ◽

Insight Into ◽

Shape And Size

AbstractAutonomous mobile robots that operate in environments with people are expected to be able to deal with human proxemics and social distances. Previous research investigated how robots can approach persons or how to implement human-aware navigation algorithms. However, experimental research on how robots can avoid a person in a comfortable way is largely missing. The aim of the current work is to experimentally determine the shape and size of personal space of a human passed by a robot. In two studies, both a humanoid as well as a non-humanoid robot were used to pass a person at different sides and distances, after which they were asked to rate their perceived comfort. As expected, perceived comfort increases with distance. However, the shape was not circular: passing at the back of a person is more uncomfortable compared to passing at the front, especially in the case of the humanoid robot. These results give us more insight into the shape and size of personal space in human–robot interaction. Furthermore, they can serve as necessary input to human-aware navigation algorithms for autonomous mobile robots in which human comfort is traded off with efficiency goals.

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Thermal indoor climate building performance characterized by human comfort response

Energy and Buildings ◽

10.1016/s0378-7788(01)00144-x ◽

2002 ◽

Vol 34 (7) ◽

pp. 737-744 ◽

Cited By ~ 32

Author(s):

Kees van der Linden ◽

Atze C. Boerstra ◽

Arjen K. Raue ◽

Stanley R. Kurvers

Keyword(s):

Building Performance ◽

Indoor Climate ◽

Human Comfort

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A comparison of different models of passive seat suspensions

Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering ◽

10.1177/0954407021990922 ◽

2021 ◽

pp. 095440702199092

Author(s):

Raj Desai ◽

Anirban Guha ◽

P. Seshu

Keyword(s):

Human Body ◽

Separate Analysis ◽

Vehicle Model ◽

Human Body Model ◽

Human Comfort ◽

Vehicle Handling ◽

Seat Suspension ◽

Handling Characteristics ◽

Suspension Model ◽

Suspension Models

Long duration exposure to vehicle induced vibration causes various ailments to humans. Amongst the various components of the human-vehicle system, the seat suspension plays a major role in determining the level of vibration transferred to humans. However, optimising the suspension for maximising human comfort leads to poor vehicle handling characteristics. Thus, predicting human comfort through various seat suspension models is a widely researched topic. However, the appropriate seat suspension model to be used has not been identified so far. Neither has any prior work reported integrating models of all the components necessary for this analysis, namely human body, cushion, seat suspension and vehicle chassis, each with the appropriate level of complexity. This work uses a two-dimensional 12 DoF seated human body model with inclined backrest support, a nonlinear cushion model, a seat suspension model and a full vehicle model. Two kinds of road profiles – one with random roughness and one with a bump – have been used. It then compares the performance of five different seat suspension models based on a number of human comfort related parameters (seat to head transmissibility, suspension travel, seat acceleration, cushion contact force and head acceleration in both vertical and fore-aft directions) and vehicle handling parameters (vertical, rolling and pitching acceleration of chassis). The results clearly show the superiority of the configuration which involves a spring parallel to an inclined multi-stage damper. A separate analysis was also done to judge whether the integration of the vehicle model (with its associated complication) was necessary for this analysis. A comparison of the human body’s internal forces, moments, acceleration, and absorbed power with and without the vehicle model clearly indicates the need of using the former.

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