DREVSA STEM Space Academy Mission Control
DREVSA · Digital Cosmos STEM Academy

Mission Control
Is Your Classroom

24 mission teams. 5 mission zones. 18 courses. 391 career pathways. Real NASA data. Ages 5 through PhD. Graduation deliverable: your own DREV-D1 drone.

Enroll Your School View Planetary Teams
☀️ Team Sun · Solar Dynamics & Space Weather 🌑 Team Mercury · Inner Solar System 🌕 Team Venus · Terraforming & Exo-Climate 🌍 Team Earth · Climate & Orbital Systems 🌙 Team Moon · Lunar Surface & Artemis 🔴 Team Mars · Exploration & Colonization 🪨 Team Ceres · Dwarf Planet & Asteroid Belt 🪨 Team Asteroid Belt · Impact Analysis & Mining 🟠 Team Jupiter · Atmospheric Science 🟤 Team Io · Volcanic Activity & Tidal Heating 🧊 Team Europa · Ocean World & Life Detection 💛 Team Saturn · Ring Dynamics & Moons 💍 Team Titan · Methane Seas & Dragonfly ❄️ Team Enceladus · Cryo-Geysers & Life Potential 🔵 Team Uranus · Ice Giant Research 🔵 Team Neptune · Deep Space Operations 🌑 Team Triton · Retrograde Moon & Cryo-Geysers ⚫ Team Pluto · Dwarf Planet & New Horizons 🌌 Team Kuiper Belt · Trans-Neptunian Objects 🌑 Team Eris · Scattered Disc Research 🌌 Team Oort Cloud · Interstellar Boundary ⭐ Team Proxima Centauri · Nearest Star System 🌌 Team Andromeda · Galaxy Collision & Dark Matter 🛰️ Command Center · Fleet & Mission Ops 391 Career Pathways in the Space Economy DREV-D1 Graduation Drone IBM Quantum · NASA F Prime · DRNNN OS ☀️ Team Sun · Solar Dynamics & Space Weather 🌑 Team Mercury · Inner Solar System 🌕 Team Venus · Terraforming & Exo-Climate 🌍 Team Earth · Climate & Orbital Systems 🌙 Team Moon · Lunar Surface & Artemis 🔴 Team Mars · Exploration & Colonization 🪨 Team Ceres · Dwarf Planet & Asteroid Belt 🪨 Team Asteroid Belt · Impact Analysis & Mining 🟠 Team Jupiter · Atmospheric Science 🟤 Team Io · Volcanic Activity & Tidal Heating 🧊 Team Europa · Ocean World & Life Detection 💛 Team Saturn · Ring Dynamics & Moons 💍 Team Titan · Methane Seas & Dragonfly ❄️ Team Enceladus · Cryo-Geysers & Life Potential 🔵 Team Uranus · Ice Giant Research 🔵 Team Neptune · Deep Space Operations 🌑 Team Triton · Retrograde Moon & Cryo-Geysers ⚫ Team Pluto · Dwarf Planet & New Horizons 🌌 Team Kuiper Belt · Trans-Neptunian Objects 🌑 Team Eris · Scattered Disc Research 🌌 Team Oort Cloud · Interstellar Boundary ⭐ Team Proxima Centauri · Nearest Star System 🌌 Team Andromeda · Galaxy Collision & Dark Matter 🛰️ Command Center · Fleet & Mission Ops 391 Career Pathways in the Space Economy DREV-D1 Graduation Drone IBM Quantum · NASA F Prime · DRNNN OS
391Career Pathways
18Standalone Courses
9Certifications
24Mission Teams
$850Graduation Drone Value
About The Academy

DREVSA — Digital Cosmos STEM Academy

DREVSA is District Robotics' full education program — structured like a real NASA mission control room where every student is assigned to a planetary team and operates live data from the DRNNN Web7 Command OS.

Students don't just read about space science. They join Team Mars, Team Europa, Team Andromeda — and they work real missions across 5 zones, from inner solar monitoring to interstellar navigation. 24 teams operate the DRNNN Command OS with 42+ live NASA, ESA, NOAA and SpaceX data feeds, a 3D solar system, and full digital twin as their actual classroom.

Every curriculum module, every certification, every pathway — built to produce real engineers, quantum scientists, aerospace analysts, and blockchain developers.

Enroll Now See the Teams

Mission Assignments

24 Mission Teams

Every student is assigned to a mission team across 5 zones: Inner Solar System, Asteroid Belt, Outer Solar System, Deep Solar System, and Interstellar & Galactic. Teams run live mission challenges, real data analysis, and system builds — scored on the DRNNN Command OS in real time. You pick your station. We assign your team.

6–8 Students
Team Earth
TEAM EARTH
Climate · Orbital · Digital Twin

Operates the Earth digital twin inside DRNNN. Monitors live climate data from NASA NOAA feeds, analyzes orbital mechanics for satellites and ISS, manages EV grid simulations.

ISS orbital tracking via CelesTrak API
Climate anomaly detection using NOAA data
EV charging grid energy optimization
Earth digital twin visualization builds
Grades 6–PhD
6–8 Students
Team Mars
TEAM MARS
Exploration · Colonization · Robotics

Designs and simulates Mars surface exploration missions. Programs autonomous rover behaviors, models habitat deployment, analyzes Perseverance and Curiosity telemetry data.

Rover autonomous navigation algorithms
Mars habitat structural design simulations
Perseverance mission telemetry analysis
Starship mission timeline modeling
Grades 8–PhD
6–8 Students
Team Jupiter
TEAM JUPITER
Atmospheric · AI Modeling · Gas Giants

Models gas giant atmospheric dynamics using AI. Analyzes Europa's subsurface ocean potential, Juno mission data streams, and gravitational assist trajectory planning.

Juno mission data streams and analysis
Gas giant atmospheric AI modeling
Europa ocean subsurface simulation
Gravitational assist trajectory math
Grades 9–PhD
6–8 Students
Team Saturn
TEAM SATURN
Ring Dynamics · Moons · Cassini

Analyzes Saturn's ring dynamics, Titan atmospheric chemistry, Cassini-Huygens historical datasets, and designs future Titan lander missions using DRNNN simulation tools.

Saturn ring particle dynamics simulation
Titan methane atmosphere chemistry
Cassini-Huygens dataset deep analysis
Future Titan lander mission design
Grades 9–PhD
4–6 Students
Team Uranus
TEAM URANUS
Ice Giants · Quantum Research · Magnetism

Focuses on ice giant physics, anomalous magnetic fields, and quantum computing applications in deep space research. Partners with IBM Quantum backends for simulation work.

Ice giant interior quantum simulations
Anomalous magnetic field modeling
IBM Quantum circuit builds for space ops
Uranus Orbiter mission concept design
HS / College / PhD
4–6 Students
Team Neptune
TEAM NEPTUNE
Deep Space · Comms · Interstellar

Operates deep space communication relay models, designs flyby probe trajectories, analyzes Voyager 2 data, and builds interstellar mission architecture in DRNNN.

Deep space comms delay modeling
Flyby trajectory optimization algorithms
Voyager 2 archival data analysis
Triton cryo-volcanism research
College / PhD
4–6 Students
Team Venus
TEAM VENUS
Terraforming · Exo-Climate · Drones

Models Venus atmospheric terraforming concepts, designs high-altitude drone missions, analyzes DAVINCI+ and VERITAS mission data, and runs exo-climate simulations.

Venus atmospheric sulfuric acid modeling
High-altitude drone mission design
DAVINCI+ / VERITAS data analysis
Terraforming timeline simulation builds
Grades 10–PhD
4–6 Students
Team Mercury
TEAM MERCURY
Inner System · Solar Dynamics · BepiColombo

Studies inner solar system physics, extreme thermal environments, BepiColombo mission data, and solar wind interaction — builds solar probe mission architectures.

BepiColombo mission telemetry analysis
Extreme thermal environment engineering
Solar wind interaction modeling
Inner solar probe design challenges
Grades 9–PhD
━━ INNER SOLAR SYSTEM ━━
6–8 Students
Team Sun
TEAM SUN
Heliophysics · Solar Wind · Space Weather

Monitors solar flares, coronal mass ejections, and space weather. Analyzes Parker Solar Probe data, models solar wind propagation, and runs heliospheric space weather prediction systems inside DRNNN.

Parker Solar Probe data analysis
Solar flare & CME event modeling
Space weather forecast simulation
Heliospheric boundary research
Grades 7–PhD
6–8 Students
Team Moon
TEAM MOON
Lunar Surface · Artemis · Gateway Station

Designs lunar base camp layouts, models regolith-based construction materials, analyzes Artemis mission telemetry, and supports Lunar Gateway architecture planning in DRNNN.

Artemis mission telemetry tracking
Lunar base structural design
Regolith material science simulation
Lunar Gateway docking protocols
Grades 6–PhD
━━ ASTEROID BELT ━━
4–6 Students
Team Ceres
TEAM CERES
Dwarf Planet · Dawn Mission · Ice Sublimation

Studies the only dwarf planet in the inner solar system. Analyzes Dawn spacecraft datasets, models cryovolcanism and bright spot chemistry, and designs future resource extraction missions.

Dawn mission data deep analysis
Bright spot composition modeling
Cryovolcanism research
Asteroid belt resource mapping
Grades 8–PhD
4–6 Students
Team Asteroid Belt
TEAM ASTEROID BELT
Impact Analysis · Space Mining · Orbital Defense

Tracks near-Earth asteroids, models collision probability matrices, analyzes DART impact mission outcomes, and designs robotic asteroid mining operations and planetary defense protocols.

Near-Earth asteroid trajectory tracking
DART impact analysis & kinetic deflection
Asteroid mining mission architecture
Planetary defense strategy modeling
Grades 9–PhD
━━ OUTER SOLAR SYSTEM — MOONS ━━
4–6 Students
Team Io
TEAM IO
Volcanic Activity · Tidal Heating · Jupiter Moon

Studies the most volcanically active body in the solar system. Models tidal heating mechanics from Jupiter's gravity, tracks volcanic plume activity, and designs future Io Volcano Observer mission architectures.

Tidal heating & volcanic modeling
Io Volcano Observer mission design
Sulfur atmosphere chemistry analysis
Jovian magnetic flux tube mapping
Grades 9–PhD
6–8 Students
Team Europa
TEAM EUROPA
Ocean World · Life Potential · Europa Clipper

Investigates Europa's subsurface ocean — the most likely candidate for extraterrestrial life in our solar system. Analyzes Europa Clipper data, ice shell dynamics, and designs subsurface cryobot probe missions.

Europa Clipper data analysis
Subsurface ocean life potential modeling
Ice shell thickness simulation
Cryobot submersible mission design
Grades 8–PhD
4–6 Students
Team Titan
TEAM TITAN
Methane Seas · Dragonfly · Hazy Atmosphere

Explores Saturn's largest moon with its dense nitrogen atmosphere and methane lakes. Analyzes Dragonfly rotorcraft mission concepts, models Titan's prebiotic chemistry, and simulates lake-shore lander deployments.

Dragonfly mission flight path planning
Methane sea composition analysis
Titan atmospheric chemistry modeling
Prebiotic molecule synthesis research
Grades 9–PhD
4–6 Students
Team Enceladus
TEAM ENCELADUS
Cryo-Geysers · Ocean World · Life Detection

Investigates Saturn's icy moon whose geysers shoot organic compounds into space. Models Cassini geyser data, designs fly-through probe missions to sample plume chemistry, and researches hydrothermal vent ecosystems.

Cassini geyser plume data analysis
Plume sample collection mission design
Hydrothermal vent chemistry modeling
Life detection instrument design
Grades 9–PhD
4–6 Students
Team Triton
TEAM TRITON
Retrograde Moon · Cryo-Geysers · Captured KBO

Studies Neptune's largest moon — a captured Kuiper Belt Object orbiting in retrograde. Analyzes Voyager 2 flyby data, models nitrogen geyser activity, and designs a future Trident orbiter concept mission.

Voyager 2 Triton flyby data analysis
Nitrogen geyser modeling
Retrograde orbit dynamics simulation
Trident orbiter mission concept design
College / PhD
━━ DEEP SOLAR SYSTEM ━━
4–6 Students
Team Pluto
TEAM PLUTO
Dwarf Planet · New Horizons · Kuiper Region

Analyzes New Horizons flyby imagery of Pluto and Charon, models nitrogen ice plains and mountain formation, researches dwarf planet classification science, and designs a Pluto orbiter mission concept.

New Horizons dataset deep analysis
Sputnik Planitia nitrogen ice dynamics
Charon binary system orbital modeling
Pluto orbiter mission design
Grades 9–PhD
4–6 Students
Team Kuiper Belt
TEAM KUIPER BELT
Trans-Neptunian Objects · KBOs · Outer Boundary

Maps and classifies Trans-Neptunian Objects, models resonance patterns with Neptune, analyzes New Horizons Arrokoth flyby data, and researches the primordial disk of early solar system formation.

TNO catalog and classification work
Arrokoth contact binary analysis
Neptune resonance orbit modeling
Primordial disk structure research
College / PhD
4–6 Students
Team Eris
TEAM ERIS
Scattered Disc · Dwarf Planet · Dysnomia

Studies the scattered disc object that triggered Pluto's reclassification. Models Eris and its moon Dysnomia's orbital dynamics, analyzes methane frost reflectivity, and researches scattered disc object populations.

Eris orbital dynamics modeling
Dysnomia binary system analysis
Scattered disc population research
Methane frost albedo mapping
College / PhD
4–6 Students
Team Oort Cloud
TEAM OORT CLOUD
Long-Period Comets · Interstellar Boundary · Heliopause

Investigates the outermost shell of our solar system. Models long-period comet origin trajectories, analyzes Voyager 1 heliosphere boundary data, and maps the transition zone between solar and interstellar space.

Long-period comet origin modeling
Voyager 1 heliosphere boundary analysis
Oort Cloud population estimation
Interstellar comet trajectory research
College / PhD
━━ INTERSTELLAR & GALACTIC ━━
4–6 Students
Team Proxima Centauri
TEAM PROXIMA CENTAURI
Nearest Star · Proxima b · Interstellar Transit

Focuses on our nearest stellar neighbor and its potentially habitable exoplanet Proxima b. Designs laser-sail Breakthrough Starshot mission architectures, models stellar flare habitability impact, and researches interstellar transit physics.

Proxima b habitability zone analysis
Breakthrough Starshot mission design
Red dwarf stellar flare impact modeling
Interstellar propulsion system research
College / PhD
4–6 Students
Team Andromeda
TEAM ANDROMEDA
Galaxy Collision · Dark Matter Lanes · Milkomeda

Models the predicted collision of the Milky Way and Andromeda galaxies 4.5 billion years from now. Analyzes dark matter distribution, galactic structure dynamics, and simulates the Milkomeda merger event. Navigates the dark matter lanes when the cross-system galaxy jump mission is called.

Milky Way–Andromeda collision simulation
Dark matter lane navigation modeling
Intergalactic jump mission concept
Milkomeda merger structure prediction
College / PhD
6–10 Students 🛰️
Command Center
COMMAND CENTER
Mission Oversight · Fleet Coordination · DRNNN OS

Holds it all together. Command Center coordinates cross-system missions, manages DRNNN OS infrastructure, oversees inter-team communications, and executes full fleet operations. When DREVSA runs a galaxy-wide mission, this is the node that clears the corridor and keeps every team in the system.

Cross-system mission coordination
DRNNN OS infrastructure management
Inter-team communication protocols
Galaxy jump & fleet operations
All Levels — Leadership Track

Full Curriculum

18 Standalone Courses

Every course is standalone or stackable toward a certification. All built on the DRNNN platform with live data feeds and real mission tooling.

#Course NamePrimary TeamLevelCertification
01Solar System Mechanics & Orbital DynamicsAll TeamsGrades 6+Foundation
02Earth Systems & Climate ScienceTeam EarthGrades 6+Foundation
03Mars Exploration & Mission DesignTeam MarsGrades 8+Explorer
04Robotics & Autonomous SystemsTeam Mars / EarthGrades 7+Explorer
05Introduction to AI & Machine LearningAll TeamsGrades 8+Explorer
06Gas Giant Atmospheric DynamicsTeam JupiterGrades 9+Specialist
07Saturn Ring Dynamics & Moon ScienceTeam SaturnGrades 9+Specialist
08Blockchain & Real-World Asset TokenizationTeam EarthGrades 10+Specialist
09Quantum Computing FundamentalsTeam UranusHS / CollegeSpecialist
10BCI & NeurotechnologyAll TeamsHS / CollegeAdvanced
11Deep Space Communications & OperationsTeam NeptuneCollegeAdvanced
12Venus Terraforming & Exo-Climate ModelingTeam VenusCollegeAdvanced
13Post-Quantum Cryptography & NIST PQCTeam UranusCollege / GradAdvanced
14GLSL Shaders & 3D Rendering SystemsAll TeamsCollegeAdvanced
15EV Infrastructure & Grid EconomicsTeam EarthGrades 10+Specialist
16Aerospace Systems EngineeringTeam Mars / MercuryCollege / GradExpert
17DRNNN Platform Architecture & Web7 OSAll TeamsCollege / GradExpert
18Drone Design, Build & Certification (DREV-D1)All TeamsAll LevelsGraduation

Credentials

5-Tier Credential Framework

From Cosmic Explorer at age 5 to doctoral-level Expert credentials — every tier is stackable and recognized by District Robotics and partner institutions.

1 Tier 1
Cosmic Explorer
Ages 5–12

Introduction to the solar system, planets, space science basics. Interactive DRNNN solar system exploration with planet team discovery missions.

DREVSA Foundation Certificate
2 Tier 2
Mission Cadet
Ages 12–16

Joins a planetary team, completes mission challenges, learns orbital mechanics, robotics basics, and Earth digital twin operations.

DREVSA Explorer Certificate
3 Tier 3
Systems Specialist
Ages 16–22

Deep dives into AI, quantum computing, blockchain, BCI, and GLSL rendering. Completes 3–5 specialist courses with real mission deliverables.

DREVSA Specialist Certificate (9 tracks)
4 Tier 4
Platform Architect
College / Grad

Builds on the DRNNN platform directly. Contributes to real production systems, leads team missions, and earns advanced credentials in 2–4 domains.

DREVSA Advanced Certificate
5 Tier 5
Mission Commander
PhD / Professional

Top-level researchers and engineers. Leads planetary teams, contributes to DRNNN core systems, quantum research, and aerospace mission architecture.

DREVSA Expert Credential + DREV-D1 Drone

Enrollment

School & District Pricing

Designed for individual schools, districts, and university programs. All tiers include DRNNN platform access, live NASA data feeds, planetary team assignments, and the teacher dashboard.

Middle School
Grades 6–8
$3–$6 / student / yr

Solar system, Earth systems, orbital mechanics, and mission discovery. NGSS aligned. Teacher PD included.

  • Digital Cosmos DRNNN access
  • 6 MS curriculum units
  • Planetary team assignment
  • Teacher dashboard + LMS sync
  • Foundation credential pathway
  • Clever / Google Classroom sync
Enroll
High School
Grades 9–12
$5–$12 / student / yr

Full DRNNN platform access. AI, quantum, blockchain, BCI, and aerospace modules. AP/IB ready. 9 certification tracks.

  • Full DRNNN Web7 OS access
  • 13 HS curriculum units
  • All 24 mission team options across 5 zones
  • 9 certification track access
  • Mission Control sim dashboard
  • IBM Quantum + NASA F Prime
  • Specialist credential pathway
Enroll
District / University
Multi-School / College
$15K–$50K / yr

Enterprise deployment with admin dashboard, teacher PD, AP/IB alignment, priority support, and co-marketing opportunities.

  • Volume pricing across all schools
  • Dedicated admin dashboard
  • Teacher professional development
  • Advanced + Expert credential pathways
  • DREV-D1 drone program included
  • Priority platform support SLA
  • Co-marketing + grant applications
Contact Us

Graduation Deliverable: DREV-D1 Drone

Every student who completes the program builds and takes home their own DREV-D1 drone — a ~$850 real-world value. Not a certificate. Not a simulation. An actual flying machine they built.

Enroll Your School Request Info Packet

Get Started

Enroll Your School or District

DREVSA Enrollment Interest Form
Complete this form and the District Robotics education team will reach out within 48 hours with a full program overview, pricing, and onboarding timeline.
Enrollment Interest Received
The DREVSA team will reach out within 48 hours with your program overview, planetary team roster, and full pricing sheet.

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