# TRICOM-1

> Japanese nanosatellite

**Wikidata**: [Q28342470](https://www.wikidata.org/wiki/Q28342470)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/TRICOM-1R)  
**Source**: https://4ort.xyz/entity/tricom-1

## Summary
TRICOM-1 is a Japanese nanosatellite classified as a CubeSat, designed using standardized 10cm cubic modules. It was launched on January 14, 2017, utilizing the SS-520-4 rocket as its launch vehicle.

## Key Facts
- **Classification:** TRICOM-1 is an instance of a CubeSat, a type of miniaturized satellite.
- **Launch Date:** The satellite was launched on January 14, 2017.
- **Launch Vehicle:** It was deployed using the SS-520-4 rocket.
- **Origin:** The country of origin is Japan.
- **Structure:** As a CubeSat, it is comprised of miniaturized, 10cm-sided cubic modules.
- **Wikidata Description:** Described as a "Japanese nanosatellite."
- **Identifiers:** Google Knowledge Graph ID is `/g/11c2y93bmz`; Wolfram Language Entity Code is `Entity["Satellite", "43201"]`.
- **Wikipedia Coverage:** The entity is covered in German, English, Japanese, and Polish language articles, often associated with the title "TRICOM-1R."

## FAQs
### Q: What type of satellite is TRICOM-1?
A: TRICOM-1 is a Japanese nanosatellite specifically classified as a CubeSat. This means it is a miniaturized satellite built from standardized 10cm-sided cubic modules.

### Q: When was TRICOM-1 launched?
A: TRICOM-1 underwent a rocket launch on January 14, 2017. This event is recorded as the significant point in time for the entity.

### Q: What rocket was used to launch TRICOM-1?
A: The launch vehicle used for the TRICOM-1 mission was the SS-520-4.

## Why It Matters
TRICOM-1 represents a specific class of space technology known as CubeSats, which have revolutionized access to space by utilizing standardized, miniaturized components. As a Japanese nanosatellite, it exemplifies the global shift toward smaller, more cost-effective orbital platforms that allow for specific research or communication tasks without the massive infrastructure of traditional satellites.

The entry is significant in aerospace records due to its association with the SS-520-4 launch vehicle. The specification of this vehicle highlights the technical endeavors to deploy small payloads into orbit. The existence of multilingual Wikipedia entries (German, English, Japanese, Polish) and specific entity codes in major knowledge graphs like Google and Wolfram further indicate its relevance as a distinct, tracked object in spaceflight history and academic data.

## Notable For
- **Miniaturized Design:** Adherence to the CubeSat standard using 10cm-sided cubic modules.
- **Specific Launch Configuration:** Association with the SS-520-4 rocket class.
- **National Origin:** Identification as a Japanese space asset.
- **Data Presence:** Inclusion in major knowledge bases with a specific Google Knowledge Graph ID and Wolfram Language entity code.
- **Multilingual Documentation:** Availability of information across four distinct language wikis (de, en, ja, pl).

## Body
### Classification and Design
TRICOM-1 is structurally defined as a **CubeSat**. This classification refers to a type of miniaturized satellite made up of 10cm-sided cubic modules. The "nano" designation in its description (Japanese nanosatellite) further underscores its small scale compared to conventional satellites.

### Launch Specifics
The defining significant event for TRICOM-1 is its rocket launch.
*   **Date:** The launch took place on **January 14, 2017**.
*   **Vehicle:** The designated launch vehicle was the **SS-520-4**.

### Data and Identifiers
TRICOM-1 is indexed across multiple structured knowledge systems.
*   **Wikipedia:** The related Wikipedia title is listed as **TRICOM-1R**, with articles available in English, German, Japanese, and Polish.
*   **Technical IDs:** The satellite is tracked via the Google Knowledge Graph ID `/g/11c2y93bmz` and the Wolfram Language Entity Code `Entity["Satellite", "43201"]`.

## References

1. Jonathan's Space Report