Literature Instruction in the Remote Environment

In anaerobic sediments, microbial degradation of petroleum hydrocarbons is limited by the rapid depletion of electron acceptors (e.g., ferric oxide, sulfate) and accumulation of toxic metabolites (e.g., sulfide, following sulfate reduction). Deep-sea sediments are increasingly impacted by oil contamination, and the elevated hydrostatic pressure (HP) they are subjected to represents an additional limitation for microbial metabolism. While the use of electrodes to support electrobioremediation in oil-contaminated sediments has been described, there is no evidence on their applicability for deep-sea sediments. Here, we tested a passive bioelectrochemical system named ”oil-spill snorkel” with two crude oils carrying different alkane contents (4 vs. 15%), at increased or ambient HP (10 vs. 0.1 MPa). Snorkels enhanced alkanes biodegradation at both 10 and 0.1 MPa within only seven weeks, as compared to nonconductive glass controls. Microprofiles in anaerobic, contaminated sediments indicated that snorkels kept sulfide concentration to low titers. Bulk-sediment analysis confirmed that sulfide oxidation by snorkels largely regenerated sulfate. Hence, the sole application of snorkels could eliminate a toxicity factor and replenish a spent electron acceptor at increased HP. Both aspects are crucial for petroleum decontamination of the deep sea, a remote environment featured by low metabolic activity.

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Encouraging Learners Interactions in an Emergency Remote Environment

Relay Journal ◽

10.37237/relay/030205 ◽

2020 ◽

pp. 201-208

Author(s):

Mizuka Tsukamoto

Keyword(s):

Online Learning ◽

Learning Environment ◽

Student Interaction ◽

Online Learning Environment ◽

First Semester ◽

Teacher Student ◽

Remote Environment ◽

Made In

This paper provides reflections on my first semester of teaching emergency remote teaching (ERT), due to the outbreak of the COVID-19 pandemic. After describing the context, I have described the choices I made in order to create and maintain an online learning environment, where student interaction is maximised, and enables the instructor to focus on the role of being a facilitator. Though it was not without a few challenges, overall, it could be considered a successful first attempt with possibly more teacher-student and student-student interaction achieved by the end of the semester.

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Medics as a Channel for Worksite Health Promotion in Remote Global Locations

American Journal of Health Promotion ◽

10.4278/ajhp.110107-arb-8 ◽

2012 ◽

Vol 26 (6) ◽

pp. 352-355 ◽

Cited By ~ 4

Author(s):

Piroska A. Bisits Bullen

Keyword(s):

Health Promotion ◽

Survey Data ◽

Comparison Group ◽

Intervention Group ◽

Target Population ◽

Monthly Basis ◽

Remote Environment ◽

Worksite Health ◽

Barriers To Implementation ◽

Language And Education

Purpose. In the energy and mining sectors, it is common for employees to work in geographically remote locations, often with a medic for emergency response. This study evaluated an intervention to increase the number of medics conducting health promotion in remote worksites. Design. Interviews were conducted to gather data for informing intervention and survey development. The intervention was evaluated in a quasiexperimental posttest-only comparison group design using survey data collected at baseline and again after 12 months. Setting. The intervention was implemented in remote worksites (N = 201). There were 96 worksites in the intervention condition and 105 sites in the control condition. Subjects. The target population was medics, including nurses, doctors, and paramedics, operating in remote worksites in 44 countries. Intervention. The intervention was a series of campaign tool kits. The tool kits were adapted to the remote environment and could be customized for culture, language, and education level. Measures. The survey assessed frequency of health promotion activities, satisfaction with the intervention, and barriers to implementation. Analysis. Survey data were analyzed using descriptive statistics and χ2 tests. Interview results were coded to identify themes. Results. Most medics (88%) in the intervention group reported running “tool box talks” (short education sessions) on at least a monthly basis, compared with 78% in the comparison group (p = .056). The trend was similar for displaying posters (71% vs. 55%; p = .021) and advocating for policy changes (84% vs. 71%; p = .027). Medic satisfaction was high. Difficulty distributing tool kits was the main barrier to implementation. Conclusions. When provided with appropriate tools, medics may be an ideal channel for health promotion in remote worksites.

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The Development of Radio and 3G Based Telemetry System for the Remote Gas Accounting and Control Nodes

International Journal of Innovative Technology and Exploring Engineering - Special Issue ◽

10.35940/ijitee.i3302.0789s319 ◽

2019 ◽

Vol 8 (9S3) ◽

pp. 1417-1421

Keyword(s):

Dynamic Range ◽

High Dynamic Range ◽

Industrial Applications ◽

Telemetry System ◽

Computing Device ◽

Gas Leakage ◽

Remote Environment ◽

High Dynamic ◽

And Control ◽

Direct Management

In this article we have described the use of vortex and recently developed ultrasonic flowmeters with high dynamic range of 1 to 1500 for industrial applications. Its software and the software of corresponding computing device is able to avoid gas leakage, to minimize energy consumption and to save human resources while maintaining metrological data. Described is the low power consumption that makes it possible to use this ultrasonic flowmeter in hard remote environment without direct management for a period of several months. Shown is the new telemetry system that was developed to unite flowmeters in the severe conditions of the desert with power supply problems and low GPRS signal quality. Experiments held in Turkmenistan have shown that device indications didn’t drift and remained stable during the year, that is a great advantage in comparison to rotary and turbine flowmeters. Also described is the mobile ultrasonic calibration stand that uses the same physical principles and similar software. Outlined is the usage of modern wireless technologies to collect and transmit metrological data.

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Conducting undergraduate research activities in a remote environment

10.1109/fie49875.2021.9637202 ◽

2021 ◽

Author(s):

D.W. Parent ◽

T. Hossain ◽

D. King ◽

P. Lagua ◽

S. Gorman

Keyword(s):

Undergraduate Research ◽

Research Activities ◽

Remote Environment

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TEEN Beyond Individual Response: Toward a Dialogical Approach to Literature Instruction

Instructional Models in Reading ◽

10.4324/9780203052891-18 ◽

2013 ◽

pp. 341-360

Keyword(s):

Individual Response ◽

Literature Instruction ◽

Dialogical Approach

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Transparent four-channel bilateral control architecture using modified wave variable controllers under time delays

Robotica ◽

10.1017/s026357471400191x ◽

2014 ◽

Vol 34 (4) ◽

pp. 859-875 ◽

Cited By ~ 6

Author(s):

Da Sun ◽

Fazel Naghdy ◽

Haiping Du

Keyword(s):

Time Delays ◽

Large Time ◽

Wave Transformation ◽

Bilateral Teleoperation ◽

Bilateral Control ◽

Wave Variable ◽

Guarantee System ◽

Remote Environment ◽

The Stability ◽

Teleoperation Systems

SUMMARYStability and transparency are two critical indices of bilateral teleoperation systems. The wave variable method is a conservative approach to robustly guarantee system passivity under arbitrary constant time delays. However, the wave-variable-based reflection is an intrinsic problem in this method because it can significantly degrade system transparency and disorient the operator's perception of the remote environment. In order to enhance both the transparency and the stability of bilateral teleoperation systems in the presence of large time delays, a new four-channel (4-CH) architecture is proposed which applies two modified wave-transformation controllers to reduce wave-based reflections. Transparency and stability of the proposed system are analyzed and the improvement in these when using this method is measured experimentally. Results clearly demonstrate that the proposed method can produce high transparency and stability even in the presence of large time delays.

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MUTUAL TELEXISTENCE SYSTEM USING RETRO-REFLECTIVE PROJECTION TECHNOLOGY

International Journal of Humanoid Robotics ◽

10.1142/s0219843604000095 ◽

2004 ◽

Vol 01 (01) ◽

pp. 45-64 ◽

Cited By ~ 14

Author(s):

SUSUMU TACHI ◽

NAOKI KAWAKAMI ◽

MASAHIKO INAMI ◽

YOSHITAKA ZAITSU

Keyword(s):

Real Time ◽

Human Being ◽

The Real ◽

Teleoperation System ◽

Remote Environment

Telexistence is fundamentally a concept named for the technology that enables a human being to have a real-time sensation of being at a place other than where he or she actually is, and to interact with the remote environment, which may be real, virtual, or a combination of both. It also refers to an advanced type of teleoperation system that enables an operator at the controls to perform remote tasks dexterously with the feeling of existing in a surrogate robot. Although conventional telexistence systems provide an operator the real-time sensation of being in a remote environment, persons in the remote environment have only the sensation that a surrogate robot is present, not the operator. Mutual telexistence aims to solve this problem so that the existence of the operator is apparent to persons in the remote environment by providing mutual sensations of presence. This paper proposes a method of mutual telexistence using projection technology with retro-reflective objects, and describes experimental hardware constructed to demonstrate the feasibility of the proposed method.

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