<\/strong><\/p>\n[\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_2″ _builder_version=”4.16″ _module_preset=”default” global_colors_info=”{}”][et_pb_blurb title=”POWER MODULE” use_icon=”on” font_icon=”||divi||400″ icon_color=”#7dc5ba” _builder_version=”4.16″ header_level=”h2″ header_font=”|600|||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#ffffff” body_font_size=”16px” body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”]<\/p>\n
The power system of the rover is divided into four major subsystems; power collector (solar panels), conversion (BMS), storage (batteries) and distribution (PDS). There are 12 space grade solar cells are mounted on a deployable panel on top of the rover to pin point the sun and face perpendicular to the incoming rays, maximizing energy collecting capacity at any given time. The Battery Management System (BMS), an in-house built subsystem, measures charge level and ensures the batteries are charged at the right voltage and current levels. It takes approximately three hours for the four batteries to fully charge. During charging operations, the rover does not \u2018walk\u2019 or carry out any non-critical tasks. As the name suggests, the Power Distribution System (PDS) regulates and distributes the various levels of power from the batteries to meet different demands of the subsystems like camera and motors while also protecting the components from surge and electrostatic charge.<\/p>\n
[\/et_pb_blurb][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=”1_2,1_2″ disabled_on=”on|on|on” _builder_version=”4.16″ _module_preset=”default” disabled=”on” global_colors_info=”{}”][et_pb_column type=”1_2″ _builder_version=”4.16″ _module_preset=”default” global_colors_info=”{}”][et_pb_blurb title=”NAVIGATION MODULE” use_icon=”on” font_icon=”||divi||400″ _builder_version=”4.17.4″ header_level=”h2″ header_font=”|600|||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#ffffff” body_font_size=”16px” body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” custom_padding=”||0px|||” animation=”off” locked=”off” global_colors_info=”{}”]<\/p>\n
Navigation module is composed of two components, the camera and\u00a0 obstacle avoidance algorithm. The camera, also known as SHRIMP (Small High-Resolution Independent Modular Photographer) is a in-house built stereo camera system which has a mass of less than 3 grams. The camera takes photos and can record short videos. Its subsystem also has 6-axis IMUs (Initial Measurement Unit) and the real power lies in the obstacle avoidance algorithm which can detect an obstacle at 2 meter distance. In response, the rover can take necessary actions to avoid the rock if it\u2019s bigger than its own leg height and guide it back to its initial path plan.<\/p>\n
[\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_2″ _builder_version=”4.16″ _module_preset=”default” global_colors_info=”{}”][et_pb_blurb title=”COMMUNICATION MODULE” use_icon=”on” font_icon=”||divi||400″ _builder_version=”4.16″ header_level=”h2″ header_font=”|600|||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#ffffff” body_font_size=”16px” body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”]<\/p>\n
Designing a direct communications system was a challenge as the shoe-boxed rover is very close to the ground and with no relay system between Moon and Earth, the rover is not able transmit a powerful signal. For this reason we built a custom mother communications boards and power amplifier board, which helps boost the signal enough for the data to reach one of our ground station. The mono pole antenna is clamped to a four-bar Antenna Deployment System (ADS) at the same plane as the solar panel. The simple, yet unique ADS support mechanics help to keep the antenna perpendicular to the ground at all times, no matter at what angle the solar panel is. This allows the rover to keep a direct and continuous connection with Earth and beacon its housekeeping data.<\/p>\n
[\/et_pb_blurb][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=”1_2,1_2″ disabled_on=”on|on|on” _builder_version=”4.16″ _module_preset=”default” disabled=”on” global_colors_info=”{}”][et_pb_column type=”1_2″ _builder_version=”4.16″ _module_preset=”default” global_colors_info=”{}”][et_pb_blurb title=”COMMAND AND DATA HANDLING MODULE” use_icon=”on” font_icon=”||divi||400″ _builder_version=”4.16″ header_level=”h2″ header_font=”|600|||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#ffffff” body_font_size=”16px” body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”]<\/p>\n
The C&DH module is the brain of the rover. It consists of two On-Board Computers (OBC) and two memory modules. It controls all the modules at a higher level and checks for incoming signals, stores flight data in both the memory modules (one as backup) and manages mission\u2019s primary modes to make sure the rover carries out its mission without risking itself. The OBC also controls the rover\u2019s internal temperature and helps to decide and command the individual locomotion modules what to do.<\/p>\n
[\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_2″ _builder_version=”4.16″ _module_preset=”default” global_colors_info=”{}”][et_pb_blurb title=”CHASSIS AND THERMAL MODULE” use_icon=”on” font_icon=”g||divi||400″ _builder_version=”4.16″ header_level=”h2″ header_font=”|600|||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#ffffff” body_font_size=”16px” body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” custom_padding=”||0px|||” animation=”off” locked=”off” global_colors_info=”{}”]<\/p>\n
The chassis of the rover has a monoque design, with one uniform hull and one bottom plate. The chassis provides housing for all components and payload while also protecting them from the harsh trans-lunar journey and lunar environment, especially the fine dust. The hull is anodized in space grade MLI coating, keeping the internal components safe from harmful radiations. The coating also allows for absorbing and radiating heat at a safe rate and prevent sharp and abrasive lunar dust from weakening the structure over its mission lifespan.<\/p>\n
[\/et_pb_blurb][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=”1″ _builder_version=”4.16″ background_color=”#091744″ custom_padding=”58px||58px||true|false” global_colors_info=”{}”][et_pb_row column_structure=”1_2,1_2″ admin_label=”design” _builder_version=”4.16″ custom_margin=”-22px||” custom_padding=”1px||” locked=”off” global_colors_info=”{}”][et_pb_column type=”1_2″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_divider color=”#14f1d9″ divider_weight=”4px” _builder_version=”4.16″ max_width=”80px” height=”4px” custom_margin=”-31px||” global_colors_info=”{}”][\/et_pb_divider][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_font_size=”16px” text_line_height=”2em” header_font=”||||||||” header_2_font=”Rubik|700||on|||||” header_2_font_size=”44px” header_2_letter_spacing=”1px” header_2_line_height=”1.3em” background_layout=”dark” header_2_font_size_tablet=”34px” header_2_font_size_phone=”24px” header_2_font_size_last_edited=”on|phone” global_colors_info=”{}” header_font_size__hover=”30px” header_font_size__hover_enabled=”30px” header_letter_spacing__hover=”0px” header_letter_spacing__hover_enabled=”0px” header_text_shadow_style__hover=”none” header_text_shadow_style__hover_enabled=”none” header_text_shadow_color__hover=”rgba(0,0,0,0.4)” header_text_shadow_color__hover_enabled=”rgba(0,0,0,0.4)”]<\/p>\n
science goals<\/h2>\n
[\/et_pb_text][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_text_color=”#9fb3d6″ text_font_size=”16px” text_line_height=”2em” header_font=”||||||||” background_layout=”dark” global_colors_info=”{}”]<\/p>\n
A trip to the moon is as rare as they come. But this decade has seen a revolution, where government and private sectors are not shying away from thinking big and helping to grow a niche market in the aerospace industry with in-situ resource utilization (ISRU) concepts taking the center stage. These mission concepts keep scientific studies as the driving force for their initial phases.<\/span><\/strong><\/p>\nWe are no different!<\/span><\/strong><\/p>\nThe specially designed legs and locomotion algorithm can help remove the upper layers of the lunar surface and via its camera system, the Zebro can collect information on how the depth of lunar regolith changes from one point to another.<\/span><\/strong><\/p>\n\u00a0<\/strong><\/p>\n\u00a0<\/strong><\/p>\n[\/et_pb_text][\/et_pb_column][et_pb_column type=”1_2″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_image src=”https:\/\/zebro.tudelft.nl\/wp-content\/uploads\/2018\/01\/DSC_0025-scaled.jpg” title_text=”DSC_0025″ align_tablet=”center” align_phone=”” align_last_edited=”on|desktop” _builder_version=”4.27.4″ custom_margin=”-67px||” custom_padding=”94px||” border_radii=”on|20px|20px|20px|20px” global_colors_info=”{}”][\/et_pb_image][et_pb_image src=”https:\/\/zebro.tudelft.nl\/wp-content\/uploads\/2018\/01\/DSC_0030-scaled.jpg” title_text=”DSC_0030″ align_tablet=”center” align_phone=”” align_last_edited=”on|desktop” _builder_version=”4.27.4″ custom_padding=”20px||” border_radii=”on|20px|20px|20px|20px” global_colors_info=”{}”][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=”1″ _builder_version=”4.16″ background_color=”#091744″ background_image=”http:\/\/zebro.space\/wp-content\/uploads\/2019\/04\/crypto-bg-02.png” custom_margin=”-2px||” custom_padding=”5px||||false|false” top_divider_color=”#9e9e9e” global_colors_info=”{}”][et_pb_row _builder_version=”4.16″ global_colors_info=”{}”][et_pb_column type=”4_4″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_divider color=”#14f1d9″ divider_weight=”4px” _builder_version=”4.16″ max_width=”80px” module_alignment=”center” height=”4px” locked=”off” global_colors_info=”{}”][\/et_pb_divider][et_pb_text admin_label=”techno goals header” _builder_version=”4.16″ text_font=”Lato||||||||” text_text_color=”#9fa5d6″ text_font_size=”16px” text_line_height=”2em” header_2_font=”Rubik|700||on|||||” header_2_font_size=”44px” header_2_letter_spacing=”1px” header_2_line_height=”1.3em” text_orientation=”center” background_layout=”dark” max_width=”700px” module_alignment=”center” header_2_font_size_tablet=”34px” header_2_font_size_phone=”24px” header_2_font_size_last_edited=”on|phone” locked=”off” global_colors_info=”{}” header_font_size__hover=”30px” header_font_size__hover_enabled=”30px” header_letter_spacing__hover=”0px” header_letter_spacing__hover_enabled=”0px” header_text_shadow_style__hover=”none” header_text_shadow_style__hover_enabled=”none” header_text_shadow_color__hover=”rgba(0,0,0,0.4)” header_text_shadow_color__hover_enabled=”rgba(0,0,0,0.4)”]<\/p>\n
TECHNOLOGY GOALS<\/h2>\n
[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=”1_3,1_3,1_3″ _builder_version=”4.16″ global_colors_info=”{}”][et_pb_column type=”1_3″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_blurb title=”Development of a modular and miniaturised rover for the lunar environment.” use_icon=”on” font_icon=”Z||divi||400″ _builder_version=”4.16″ header_font=”Rubik||||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#9fa5d6″ body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”][\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_3″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_blurb title=”Demonstrate an in-house built miniaturised camera system based on BGA soldering technology.” use_icon=”on” font_icon=”Z||divi||400″ _builder_version=”4.16″ header_font=”Rubik||||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#9fa5d6″ body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”][\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_3″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_blurb title=”Test new optical based obstacle detection software and autonomously guide the rover away from obstructions back to its pre-planned path.” use_icon=”on” font_icon=”Z||divi||400″ _builder_version=”4.16″ header_font=”Rubik||||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#9fa5d6″ body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”][\/et_pb_blurb][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=”1_3,1_3,1_3″ _builder_version=”4.16″ global_colors_info=”{}”][et_pb_column type=”1_3″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_blurb title=”Demonstrate and test the unique C-shaped leg design, material and durability in the rough and harsh terrain of the moon.” use_icon=”on” font_icon=”Z||divi||400″ _builder_version=”4.16″ header_font=”Rubik||||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#9fa5d6″ body_line_height=”1.9em” background_color=”#091744″ text_orientation=”center” background_layout=”dark” custom_padding=”0px||” animation=”off” locked=”off” global_colors_info=”{}”][\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_3″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_blurb title=”Test in-house developed Battery Management System (BMS) in lunar and transit environments which is built around COTS parts.” use_icon=”on” font_icon=”Z||divi||400″ _builder_version=”4.16″ header_font=”Rubik||||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#9fa5d6″ body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” custom_padding=”0px||” animation=”off” locked=”off” global_colors_info=”{}”][\/et_pb_blurb][\/et_pb_column][et_pb_column type=”1_3″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_blurb title=”Demonstrate direct low-power Earth-Moon communication electronics and test its capability.” use_icon=”on” font_icon=”Z||divi||400″ _builder_version=”4.16″ header_font=”Rubik||||||||” header_line_height=”1.6em” body_font=”Lato||||||||” body_text_color=”#9fa5d6″ body_line_height=”1.9em” text_orientation=”center” background_layout=”dark” animation=”off” locked=”off” global_colors_info=”{}”][\/et_pb_blurb][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=”1″ specialty=”on” next_background_color=”#091744″ padding_top_2=”16vw” padding_2_tablet=”60px|||” padding_2_phone=”” padding_2_last_edited=”on|tablet” admin_label=”Feature” _builder_version=”4.27.4″ background_color=”#091744″ background_image=”https:\/\/zebro.tudelft.nl\/wp-content\/uploads\/2017\/12\/space-4.1-CPR-scaled.jpg” parallax=”on” inner_width=”100%” inner_max_width=”100%” custom_padding=”||8vw||false|false” top_divider_style=”ramp2″ top_divider_color=”#091744″ bottom_divider_style=”wave2″ bottom_divider_height=”12vw” bottom_divider_flip=”horizontal” use_custom_width=”on” width_unit=”off” custom_width_percent=”100%” global_colors_info=”{}”][et_pb_column type=”1_2″ specialty_columns=”2″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” parallax__hover=”off” parallax_method__hover=”on” custom_padding__hover=”|||”][et_pb_row_inner use_custom_gutter=”on” custom_padding_last_edited=”on|phone” _builder_version=”4.16″ use_background_color_gradient=”on” background_color_gradient_direction=”210deg” background_color_gradient_stops=”#00b0db 0%|#1a448b 100%” background_color_gradient_start=”#00b0db” background_color_gradient_end=”#1a448b” module_alignment=”left” custom_padding=”140px|100px|140px|10vw|true|false” custom_padding_tablet=”|10vw||10vw||true” custom_padding_phone=”60px||60px||true” animation_style=”fold” animation_direction=”left” animation_intensity_fold=”20%” border_radii=”||20px|14vw|” box_shadow_style=”preset7″ box_shadow_horizontal=”0px” box_shadow_vertical=”3px” box_shadow_color=”rgba(255,255,255,0.21)” locked=”off” global_colors_info=”{}”][et_pb_column_inner saved_specialty_column_type=”1_2″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” parallax__hover=”off” parallax_method__hover=”on” custom_padding__hover=”|||”][et_pb_divider color=”#14f1d9″ divider_weight=”4px” _builder_version=”4.16″ max_width=”80px” height=”4px” locked=”off” global_colors_info=”{}”][\/et_pb_divider][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_text_color=”#9fb9d6″ text_font_size=”16px” text_line_height=”2em” header_2_font=”Rubik|700||on|||||” header_2_font_size=”44px” header_2_letter_spacing=”1px” header_2_line_height=”1.3em” background_layout=”dark” header_2_font_size_tablet=”34px” header_2_font_size_phone=”24px” header_2_font_size_last_edited=”on|phone” locked=”off” global_colors_info=”{}” header_font_size__hover=”30px” header_font_size__hover_enabled=”30px” header_letter_spacing__hover=”0px” header_letter_spacing__hover_enabled=”0px” header_text_shadow_style__hover=”none” header_text_shadow_style__hover_enabled=”none” header_text_shadow_color__hover=”rgba(0,0,0,0.4)” header_text_shadow_color__hover_enabled=”rgba(0,0,0,0.4)”]<\/p>\n
FUTURE missions<\/h2>\n
<\/p>\n
[\/et_pb_text][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_text_color=”#e2f8f8″ text_font_size=”17px” text_line_height=”1.8em” background_layout=”dark” custom_margin=”-66px||” custom_padding=”0px||” locked=”off” global_colors_info=”{}”]<\/p>\n
The most important overall goal, for TU Delft and its partners, is to provide hands-on education and training for students on a real lunar mission and facilitate students with a cutting-edge technology space project. This enables the students to become exceptional engineers and participate in more challenging missions.<\/span><\/p>\nDelft University of Technology sees the Lunar Zebro project as a stepping stone to more ambitious projects with current and future industry and institutional partners. Some of the projects that show potential are on the roadmap of various space agencies around the world:<\/span><\/p>\n[\/et_pb_text][\/et_pb_column_inner][\/et_pb_row_inner][\/et_pb_column][et_pb_column type=”1_2″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” parallax__hover=”off” parallax_method__hover=”on” padding_top__hover=”16vw” padding_tablet__hover=”60px|||” padding_last_edited__hover=”on|tablet” custom_padding__hover=”|||”][et_pb_image src=”https:\/\/zebro.tudelft.nl\/wp-content\/uploads\/2018\/05\/hover-contact-scaled.jpg” title_text=”hover contact” align_tablet=”center” align_phone=”” align_last_edited=”on|desktop” _builder_version=”4.27.4″ max_width=”70%” custom_margin=”|||-9vw” animation_style=”zoom” animation_intensity_zoom=”20%” border_radii=”on|20px|20px|20px|20px” box_shadow_style=”preset1″ box_shadow_blur=”148px” box_shadow_color=”rgba(17,16,49,0.56)” global_colors_info=”{}”][\/et_pb_image][et_pb_image src=”https:\/\/zebro.tudelft.nl\/wp-content\/uploads\/2019\/02\/mars-space-planet-GettyImages-112718272-1120.jpg” title_text=”mars-space-planet-GettyImages-112718272-1120″ align_tablet=”center” align_phone=”” align_last_edited=”on|desktop” _builder_version=”4.27.4″ max_width=”60%” module_alignment=”right” custom_margin=”-12vw||” animation_style=”zoom” animation_delay=”200ms” animation_intensity_zoom=”10%” border_radii=”|20px|||20px” box_shadow_style=”preset1″ box_shadow_blur=”148px” box_shadow_color=”rgba(17,16,49,0.56)” global_colors_info=”{}”][\/et_pb_image][\/et_pb_column][\/et_pb_section][et_pb_section fb_built=”1″ admin_label=”future” _builder_version=”4.16″ background_color=”#091744″ background_image=”http:\/\/zebro.space\/wp-content\/uploads\/2019\/04\/gaming-02.png” background_position=”top_center” custom_margin=”-38px||” global_colors_info=”{}” box_shadow_style__hover=”none” box_shadow_style__hover_enabled=”none” box_shadow_color__hover=”rgba(0,0,0,0.3)” box_shadow_color__hover_enabled=”rgba(0,0,0,0.3)”][et_pb_row _builder_version=”4.16″ global_colors_info=”{}”][et_pb_column type=”4_4″ _builder_version=”4.16″ custom_padding=”|||” global_colors_info=”{}” custom_padding__hover=”|||”][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_font_size=”18px” text_line_height=”2em” header_font=”||||||||” header_3_font=”||||||||” header_4_font=”Rubik|500||on|||||” header_4_text_color=”#14f1d9″ header_4_font_size=”11px” header_4_letter_spacing=”2px” background_layout=”dark” locked=”off” global_colors_info=”{}”]<\/p>\n
MARS<\/h4>\n
The next stop would be the Red Planet. As young engineers we love the enthusiasm and effort the private companies are putting in. Zebro can provide crucial topological survey of various landing spots and assist the first humans on Mars to explore for projects like Mars City from SpaceX.<\/span>[\/et_pb_text][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_font_size=”18px” text_line_height=”2em” header_font=”||||||||” header_text_color=”#1fe0ba” header_3_font=”||||||||” header_4_font=”Rubik|500||on|||||” header_4_text_color=”#14f1d9″ header_4_font_size=”11px” header_4_letter_spacing=”2px” background_layout=”dark” locked=”off” global_colors_info=”{}”]<\/p>\nswarming<\/h4>\n
Drones are the most recent machines to have implemented swarming, but imagine if we let rover swarms leverage similar parallelism to map hundreds of square kilometres on other planets in a matter of months, being able to get into even the riskiest places thanks to the inherent redundancy.<\/span>[\/et_pb_text][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_font_size=”18px” text_line_height=”2em” header_font=”||||||||” header_3_font=”||||||||” header_4_font=”Rubik|500||on|||||” header_4_text_color=”#14f1d9″ header_4_font_size=”11px” header_4_letter_spacing=”2px” background_layout=”dark” locked=”off” global_colors_info=”{}”]<\/p>\nPAYLOAD<\/h4>\n
<\/span><\/p>\nGiven that the Lunar Zebro is the smallest and lightest rover ever, we look forward to scaling down the design even further to accommodate different types of on-board payloads on future interplanetary missions.<\/span><\/p>\n<\/span>[\/et_pb_text][et_pb_text _builder_version=”4.16″ text_font=”Lato||||||||” text_font_size=”18px” text_line_height=”2em” header_font=”||||||||” header_3_font=”||||||||” header_4_font=”Rubik|500||on|||||” header_4_text_color=”#14f1d9″ header_4_font_size=”11px” header_4_letter_spacing=”2px” background_layout=”dark” locked=”off” global_colors_info=”{}”]<\/p>\nlufar<\/h4>\n
The Moon\u2019s far side is the quietest radio location near Earth, where cosmic signals could be recorded without any man-made interference. Combined with swarming, we could provide the mobility solution needed to make an array of approximately 7000 antennas which is adaptive and robust.<\/span>[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row _builder_version=”4.27.4″ _module_preset=”default” global_colors_info=”{}”][et_pb_column type=”4_4″ _builder_version=”4.27.4″ _module_preset=”default” global_colors_info=”{}”][et_pb_text _builder_version=”4.27.4″ _module_preset=”default” min_height=”24.6px” custom_margin=”||11px|||” custom_padding=”0px|||||” hover_enabled=”0″ global_colors_info=”{}” disabled_on=”on|on|on” disabled=”on” sticky_enabled=”0″]<\/p>\nThis link is no longer usefull, remove<\/p>\n
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