Your search keyword '"J. Romeral"' showing total 2 results

1. REMS: The Environmental Sensor Suite for the Mars Science Laboratory Rover

Author

A. Pena, Ari-Matti Harri, Nilton O. Renno, Luis Castañer, Juan Moreno, María Paz Zorzano, I. McEwan, Henrik Kahanpää, Felipe Gómez, A. Lepinette, Miguel Ramos, F. Torrero, R. Urqui, Luis Vázquez, J. Romeral, Robert M. Haberle, Mark I. Richardson, Sara Navarro, Jesús Martínez-Frías, M. de la Torre Juárez, Lukasz Kowalski, M. A. de Pablo, Jouni Polkko, J. A. Rodríguez-Manfredi, J. Verdasca, J. Torres, Jacobo Martín, Carlos Armiens, J. Ricart, Maria Genzer, Eduardo Sebastián, V. Jiménez, Manuel Dominguez, L. Mora, Javier Martin-Torres, J. Serrano, Javier Gómez-Elvira, T. Velasco, V. Peinado, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MNT - Grup de Recerca en Micro i Nanotecnologies

Subjects

Ultraviolet radiation, Meteorology, Atmosphere, Mart (Planeta) -- Atmòsfera, Habitability, Temperature, Mars, Mars Science Laboratory, Astronomy and Astrophysics, Wind, Mars Exploration Program, Mars (Planet) -- Atmosphere, Radiation assessment detector, Pressure sensor, Wind speed, Relative Humidity, Space and Planetary Science, Martian surface, Environmental monitoring, Pressure, Environmental science, Enginyeria electrònica::Instrumentació i mesura [Àrees temàtiques de la UPC], Timekeeping on Mars, Remote sensing

Abstract

The Rover Environmental Monitoring Station (REMS) will investigate environ- mental factors directly tied to current habitability at the Martian surface during the Mars Sci- ence Laboratory (MSL) mission. Three major habitability factors are addressed by REMS: the thermal environment, ultraviolet irradiation, and water cycling. The thermal environment is determined by a mixture of processes, chief amongst these being the meteorological. Ac- cordingly, the REMS sensors have been designed to record air and ground temperatures, pressure, relative humidity, wind speed in the horizontal and vertical directions, as well as ultraviolet radiation in different bands. These sensors are distributed over the rover in four places: two booms located on the MSL Remote Sensing Mast, the ultraviolet sensor on the rover deck, and the pressure sensor inside the rover body. Typical daily REMS observa- tions will collect 180 minutes of data from all sensors simultaneously (arranged in 5 minute hourly samples plus 60 additional minutes taken at times to be decided during the course of the mission). REMS will add significantly to the environmental record collected by prior missions through the range of simultaneous observations including water vapor; the ability to take measurements routinely through the night; the intended minimum of one Martian year of observations; and the first measurement of surface UV irradiation. In this paper, we describe the scientific potential of REMS measurements and describe in detail the sensors that constitute REMS and the calibration procedures

Published

2012

2. Curiosity's rover environmental monitoring station: Overview of the first 100 sols

Author

María Paz Zorzano, Nilton O. Renno, Robert M. Haberle, Claire E. Newman, Carlos Armiens, Ari-Matti Harri, Jesús Martínez-Frías, L. Mora, Michael A. Mischna, Sara Navarro, José Antonio Rodríguez-Manfredi, Manuel de la Torre Juárez, Victoria E. Hamilton, Maria Genzer, A. Lepinette, Eduardo Sebastián, O. Kemppinen, Felipe Gómez, Henrik Kahanpää, Julio J. Romeral Planellõ, Miguel Ramos, Jouni Polkko, Javier Martin-Torres, Javier Martín Soler, Scot Rafkin, Ashwin R. Vasavada, I. Carrasco, Mark I. Richardson, J. Verdasca, J. Torres, Javier Gómez-Elvira, Miguel Ángel de Pablo, V. Peinado, and Roser Urquí

Subjects

Martian, Atmospheric pressure, Meteorology, Context (language use), Mars Exploration Program, Surface pressure, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Diurnal cycle, Environmental monitoring, Earth and Planetary Sciences (miscellaneous), Environmental science, Relative humidity

Abstract

In the first 100 Martian solar days (sols) of the Mars Science Laboratory mission, the Rover Environmental Monitoring Station (REMS) measured the seasonally evolving diurnal cycles of ultraviolet radiation, atmospheric pressure, air temperature, ground temperature, relative humidity, and wind within Gale Crater on Mars. As an introduction to several REMS-based articles in this issue, we provide an overview of the design and performance of the REMS sensors and discuss our approach to mitigating some of the difficulties we encountered following landing, including the loss of one of the two wind sensors. We discuss the REMS data set in the context of other Mars Science Laboratory instruments and observations and describe how an enhanced observing strategy greatly increased the amount of REMS data returned in the first 100 sols, providing complete coverage of the diurnal cycle every 4 to 6 sols. Finally, we provide a brief overview of key science results from the first 100 sols. We found Gale to be very dry, never reaching saturation relative humidities, subject to larger diurnal surface pressure variations than seen by any previous lander on Mars, air temperatures consistent with model predictions and abundant short timescale variability, and surface temperatures responsive to changes in surface properties and suggestive of subsurface layering.

Published

2014