GNSS Surveying in Indonesia: InaCORS Setup Guide 2026
To survey with RTK GNSS in Indonesia: register for a free InaCORS account at inacors.big.go.id, configure NTRIP in your receiver using the server address cors.big.go.id port 2101, select the nearest mountpoint, and set your project coordinate system to DGN95 or WGS84. APEKS receivers with built‑in 4G connect to InaCORS without a controller — enabling one‑person RTK across Sumatra, Java, Kalimantan, Sulawesi, and Papua.
- Indonesia GNSS Landscape: What Surveyors Need to Know
- InaCORS Network — Coverage, Registration, and Access
- NTRIP Configuration for InaCORS in ApekSurv
- Indonesia Coordinate Systems — DGN95, TM‑3, and WGS84
- Regional Coverage Gaps — When to Deploy a Local Base
- Equipment Recommendations for Indonesian Field Conditions
- Practical Field Tips for Indonesia Survey
- Quick Reference Table
- FAQ
Indonesia is the world's largest archipelago — 17,000 islands stretching 5,000 km from east to west, spanning three time zones, and hosting one of the fastest‑growing infrastructure pipelines in Southeast Asia. Road construction, plantation mapping, coastal monitoring, and mining surveys all depend on reliable GNSS positioning. The Badan Informasi Geospasial (BIG) operates the InaCORS network, which provides free NTRIP correction access to registered surveyors. Knowing how to configure InaCORS correctly, select the right coordinate system, and handle coverage gaps in outer islands is what determines whether a field team achieves centimetre‑level Fixed solutions or spends half the day troubleshooting. This guide covers everything needed to survey efficiently in Indonesia.
Indonesia GNSS Landscape: What Surveyors Need to Know
BIG (Badan Informasi Geospasial) is the national mapping authority that operates InaCORS. The network comprises more than 270 continuously operating reference stations distributed across the archipelago, with the densest coverage on Java and Sumatra — where most infrastructure projects are concentrated. Coverage on outer islands (Kalimantan interior, Papua highlands, Maluku, Nusa Tenggara Timur) is sparser; distances to the nearest station can exceed 100 km in some remote areas.
Key facts for field surveyors:
Indonesia sits on the Pacific Ring of Fire — tectonic activity means the national geodetic framework is actively maintained and periodically updated. Always use the current InaCORS mountpoints and check the BIG website for reference frame updates.
The national cadastral survey agency BPN and construction monitoring programmes rely on InaCORS for legal boundary surveys. Registration is free for Indonesian survey professionals and international project teams operating in the country.
InaCORS Network — Coverage, Registration, and Access
Follow these four steps to get connected to InaCORS for your project.
Step 1 — Register for InaCORS access
Visit inacors.big.go.id and complete the online registration form. Provide your full name, organisation, intended use, and project area. BIG typically approves accounts within 1–3 business days. International project teams should register under their local partner company name. Keep login credentials secure — some NTRIP client configurations bind the account to a single device.
Step 2 — Check coverage for your project area
Use the InaCORS interactive map at inacors.big.go.id/peta to verify reference station locations near your project site. For Java, Bali, and Sumatra projects, expect a reference station within 30–50 km. For Kalimantan, Sulawesi, and Papua, gaps of 80–120 km are common in interior or highland areas — plan accordingly.
Step 3 — Download the mountpoint list
Connect to the InaCORS caster at cors.big.go.id port 2101 (no username/password required for the initial mountpoint list download). Review the mountpoint naming convention: stations are named by a four‑character BIG station code corresponding to city or district names. Select the mountpoint geographically nearest to your project site.
Step 4 — Verify network status before mobilising
InaCORS publishes real‑time network status at inacors.big.go.id. Before mobilising equipment to a remote site, confirm the nearest reference station is online. Unplanned maintenance outages occasionally affect individual stations — having the second‑nearest station as a backup mountpoint saves time in the field.
NTRIP Configuration for InaCORS in ApekSurv
Step‑by‑step InaCORS setup in ApekSurv
cors.big.go.id / Port: 2101.APEKS receivers from AP20 onwards include a built‑in 4G modem. The receiver manages the InaCORS connection independently — no tethering to a mobile phone or data collector is required. This is particularly important for one‑person survey operations in plantation and road corridor environments where carrying a separate data collector adds logistical burden.
Indonesia Coordinate Systems — DGN95, TM‑3, and WGS84
Indonesia's national coordinate system is DGN95 (Datum Geodesi Nasional 1995), aligned to ITRF94 at epoch 1995.0. For practical field survey purposes, DGN95 and WGS84 are sufficiently aligned that most GNSS receivers treat them as equivalent. However, for legal cadastral surveys and government infrastructure projects, DGN95 must be stated explicitly in the survey report.
Indonesia uses the Transverse Mercator 3° belt system (TM‑3) for local grid coordinates. The country is divided into 7 TM‑3 zones. In ApekSurv, select the appropriate TM‑3 zone based on your project location. Using the wrong TM‑3 zone shifts all easting coordinates by hundreds of metres — verify zone selection before starting.
| Region | TM-3 Zone | Central Meridian | Zone Number |
|---|---|---|---|
| Sumatra (west) | Zone 46 | 93°E | 46N |
| Sumatra (east) / Kalimantan (west) | Zone 47 | 99°E | 47N |
| Java / Kalimantan (central) | Zone 48 | 105°E | 48N |
| Sulawesi (west) / Kalimantan (east) | Zone 49 | 111°E | 49N |
| Sulawesi (east) / Maluku | Zone 50 | 117°E | 50N |
| Papua (west) | Zone 51 | 123°E | 51N |
| Papua (east) | Zone 52 | 129°E | 52N |
For orthometric heights (elevations above mean sea level), Indonesia uses the national vertical datum referenced to tide gauges. Apply the EGM2008 geoid model in ApekSurv for conversion from ellipsoidal to orthometric heights. For engineering projects requiring local vertical control, establish a benchmark from the nearest BPN vertical control monument.
Regional Coverage Gaps — When to Deploy a Local Base
Symptom: InaCORS connection established but Fixed solution not achieved, or differential age consistently above 5 seconds.
Cause: Nearest reference station is more than 70km away — common in Kalimantan interior, Papua highlands, and remote Sulawesi.
Fix: Deploy an APEKS MAX5 base station on the highest accessible point in the survey area. With 5W LoRa and 25km range, a single MAX5 covers most plantation block surveys and road corridor segments without cellular dependency. Occupy a known benchmark at the project start and enter the coordinate into ApekSurv as a Known Point base configuration — this ties the entire dataset to the national geodetic framework even when InaCORS is unavailable. In areas with partial 4G coverage (common at Kalimantan and Sulawesi forest edges), APEKS AP40 Laser+ or AP60 Vision can run InaCORS NTRIP when cellular is available, then switch to UHF radio from a local MAX5 base when cellular fails — ApekSurv supports seamless switching between data link modes without restarting the survey session. Always carry a MAX5 base as backup for remote plantation surveys in East Kalimantan or mining projects in Papua, regardless of connectivity forecast.
Equipment Recommendations for Indonesian Field Conditions
Indonesia's equatorial climate presents specific challenges: ambient temperatures of 28–38°C, humidity above 85% for most of the year, frequent rain during the October–April wet season, and red laterite soil that infiltrates connectors if not sealed.
Minimum requirements for Indonesian field use:
- IP67 rating minimum (brief immersion protection) — IP68 preferred for river crossing surveys, coastal mapping, and wet season work.
- IK08 impact resistance — equipment is routinely transported by motorcycle, boat, and on foot through plantation access tracks.
- Operating temperature up to +60°C — receivers left in direct sunlight in the back of a pickup can exceed 50°C surface temperature.
- USB‑C or power bank charging — essential for remote sites without generator access.
APEKS model recommendations for Indonesia:
- AP30 Laser / AP40 Laser+ — best for plantation cadastral, road corridor, and infrastructure survey. Built‑in 4G for InaCORS, 120° IMU for slope survey under canopy, green laser for boundary peg measurements through vegetation.
- AP60 Vision — recommended for multi‑person survey teams and engineering projects where AR stakeout capability saves time on complex layouts.
- MAX5 Base Station — essential for Kalimantan, Papua, and Sulawesi remote projects. The 13,200 mAh battery survives a full shift without recharging, and the 5W LoRa covers plantation block perimeters reliably.
Practical Field Tips for Indonesia Survey
- ALWAYS REGISTER INACORS BEFORE MOBILISING. InaCORS approval takes 1–3 days. Registering on arrival at the project site delays the entire team. Register online before travel.
- CARRY BOTH INACORS AND LOCAL BASE CAPABILITY. Even on Java, cellular outages during storms are common. A MAX5 or a second APEKS receiver configured as a base station is field insurance.
- VERIFY TM‑3 ZONE BEFORE FIRST POINT. One incorrect digit in the zone selection shifts all coordinates. Check by observing a known monument or existing survey peg before starting productive work.
- SURVEY EARLY. Ionospheric activity near the equator peaks in the early afternoon. Start by 07:00 and complete precision survey by 12:00 for the most consistent Fixed solution quality.
- PROTECT CONNECTORS. Red laterite soil, sawdust from plantation operations, and salt air in coastal zones all degrade SIM card slots and charging ports. Use the rubber port covers on APEKS receivers — they are functional, not decorative.
- UPDATE FIRMWARE BEFORE DEPLOYMENT. APEKS international‑version receivers support OTA firmware updates globally. Update before leaving for site — remote areas may have insufficient bandwidth for in‑field updates. Domestic‑brand Chinese receivers cannot update firmware outside China, causing RTCM and constellation compatibility issues on longer projects.
Quick Reference Table
| Parameter | Value | Notes |
|---|---|---|
| InaCORS server | cors.big.go.id | BIG national caster |
| NTRIP port | 2101 | Standard NTRIP port |
| Registration | Free | inacors.big.go.id |
| National datum | DGN95 | Equivalent to WGS84 for field work |
| Projection | TM‑3 (7 zones) | Select zone by longitude |
| Geoid model | EGM2008 | For orthometric heights |
| Recommended baseline | <50 km | For reliable Fixed solution |
| Coverage density | High: Java/Sumatra | Low: Papua/Kalimantan interior |
| Wet season | October–April | IP68 recommended |
| Operating temp | Up to +38°C ambient | IP67/IK08 minimum equipment spec |
FAQ — GNSS Surveying in Indonesia
Is InaCORS free to use?
What coordinate system should I use for surveys in Indonesia?
What should I do when InaCORS shows no coverage in my project area?
Can I use InaCORS with APEKS receivers without a data collector?
Does Indonesia's tectonic activity affect GNSS accuracy?
SURVEY INDONESIA. FIXED EVERYWHERE.
APEKS RTK receivers include built‑in 4G for InaCORS, 120° calibration‑free IMU for slope and canopy survey, IP67/IK08 protection for equatorial field conditions, and global OTA firmware — no geo‑fence lock, no domestic‑only restrictions. Ships internationally.
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- Badan Informasi Geospasial (BIG) — InaCORS Network Official Documentation, 2026
- BIG Technical Guidelines for InaCORS Usage, 2024
- DGN95 — Indonesian National Geodetic Datum, BIG Publication
- EGM2008 Global Geoid Model — National Geospatial‑Intelligence Agency
- ISO 17123-8:2015 — Field Procedures for GNSS RTK
- APEKS AP40 Laser+ Technical Datasheet, 2026
- APEKS MAX5 Base Station Datasheet, 2026