GNSS Signal Tracking(1598) Signal Tracking(1698) Signal Tracking(1760)

Performances 1598 channels 1698 channels 1760 channels

GPS: L1, L1C, L2C, L2P, L5 GPS: L1, L1C, L2C, L2P, L5 GPS: L1C/A, L1C, L2C, L2P, L5
GLONASS: L1C/A,L1P,L2C/A,L2P,L3
BDS: BDS-2: B1I, B2I, B3I, BDS-3: B1I, B3I, B1C, B2a, B2b*
GALILEO: E1, E5A, E5B, E6C, AltBOC*
GLONASS: G1, G2, G3
BDS: B1I, B2I, B3L, B1C, B2A, B2B*
GALILEO: E1, E5A, E5B, E6C*
GLONASS: L1C/A, L2C/A, L2P, L3CDMA
BDS: B1I, B1C, B2I, B2a, B3
GALILEO: E1, E5A, E5B, E5AltBOC, E6
We
SBAS(WAAS/MSAS/EGNOS/GAGAN): L1*
IRNSS: L5*
QZSS: L1, L2C, L5*
SBAS(WAAS/MSAS/EGNOS/GAGAN): L1C, L1A*
Navic/IRNSS: L5*
QZSS: L1, L2C, L5*
SBAS: EGNOS, WAAS, GAGAN, MSAS, SDCM(L1,L5)
Navic: L5
QZSS: L1C/A, L1C, L2C, L5, L6
Wish You
MSS L-Band: BDS-PPP, Galileo HAS MSS L-Band: Reserve MSS L-Band: BDS-PPP, Galileo HAS*

Other Features Great

Initialization Time: <10s Initialization reliability: >99.99%

Positioning
Positioning output rate: 1Hz~20Hz

Code differential GNSS positioning Static(long observations) Static

Achievements
Precision H: 0.25m+1 ppm RMS H: 2.5mm+0.1 ppm RMS H: 2.5 mm + 0.5 ppm RMS
V: 0.50m+1 ppm RMS V: 3mm+0.4 ppm RMS V: 3.5 mm + 0.5 ppm RMS

Rapid static PPK RTK(UHF)

H: 2.5 mm + 0.5 ppm RMS H: 3 mm + 1 ppm RMS H: 8 mm + 1 ppm RMS
V: 5 mm + 0.5 ppm RMS V: 5 mm + 1 ppm RMS V: 15 mm + 1 ppm RMS

RTK(NTRIP) RTK initialization time SBAS positioning

H: 8 mm + 0.5 ppm RMS 2 ~ 8s Typically<5m 3DRMS
V: 15 mm + 0.5 ppm RMS

BDSPPP Galileo HAS

H:10cm H: 20cm
V: 20cm V: 40cm

IMU Update Rate Tilt Angle Initialization Way Type

200Hz 0-60° Shake or Walk Calibration Free

User Interface Keys Touch Screen LED WEB UI

Power Key HD 1.39inches color Power Indicator Supported
circle touch screen

Voice Guidence Language Supported

Supported Chinese, English, Korean, Russian, Spanish, Portuguese, Turkish, French, Italian

Operating system Secondary development Cloud service

Linux Provides secondary development package and opens the OpenSIC Cloud serviceThe powerful cloud platform provides online services
observation data format and interaction interface definition like remote management, firmware update, online register, etc.

Hardware Dimension Weight Material Temperature Humidity Waterproof/Dustproof

Shock/Vibration

155mm(Φ) 1.2kg Magnesium aluminum Working: -45℃ to +75℃ 100% Non IP68 standard;
*98.5mm(H) alloy shell Storage: -55℃ to +85 ℃ -condensing Withstand 2m pole drop onto
the cement ground naturally

Power Supply Battery

6-18V DC, overvoltage protection Built-in 7.4V 10000mAh, PD quick charge protocol; rover data collector internet mode>20h

Electronic bubble Thermometer

Controller software can display electronic bubble, checking Built-in thermometer sensor, adopting intelligent temperature control technology,
leveling status of the carbon pole in real-time monitoring and adjusting the receiver temperature

AR Stakeout Pixel Visual Angle Pixel

Camera 2M 75° Visual Positioning Camera 8M

Communication I/O Ports Radio WIFI

5-PIN LEMO (external power port + RS232) 1W/2W/3W Radio receiver and transmitter 802.11b/g/n
Type-C(charge+USB+OTG+Ethernet) Frequency range: 410-470MHz Support AP mode and Client mode
UHF antenna interface Protocol: Farlink, SOUTH, TrimTalk, Hi-target, HUACE
Radio router, Radio repeater

Cellular Network NFC BT

4G LTE, 3G WCDMA, Automatic pair between receiver and controller Bluetooth 4.0 standard,
2G GPRS, GSM (controller requires NFC wireless Bluetooth 2.1+EDR
communication module)

Data Storage Storage Data transmission Data Formats

/Transmission 64GB SSD internal storage Plug and play mode of USB data Static data format: STH, Rinex2.01, Rinex3.02 and etc.
Automatic cycle storage transmission Differential data format: RTCM 2.1, RTCM 2.3, RTCM 3.0, RTCM 3.1, RTCM 3.2
Support external USB storage Supports FTP/HTTP data download GPS output data format: NMEA 0183, PJK plane coordinate, Binary code
The customizable sample interval is up to 50Hz Network model support: VRS, FKP, MAC, fully support NTRIP protocol

*Reserve for future upgrade.

Remarks: Measurement accuracy and operation range might vary due to atmospheric conditions, signal multipath, obstructions, observation time, temperature,
Visual Posi oning & Stakeout 3D Modeling 3 Ways of Processing
signal geometry and number of tracked satellites. Specifications subject to change without prior notice

SOUTH SURVEYING & MAPPING TECHNOLOGY CO., LTD. Up to 1760 channels Farlink 2.0 4th genera on IMU
Add: South Geo-information Industrial Park, No.39 Si Cheng Rd, Guangzhou, China
Tel: +86-20-23380888 Fax: +86-20-23380800
E-mail: mail@southsurvey.com export@southsurvey.com impexp@southsurvey.com gnss@southsurvey.com
http://www.southinstrument.com http://www.southsurvey.com
The Unique UAV Photogrammetry Algorithms from SOUTH
is Adding 10 Advantages to Tradi onal GNSS RTK

More Points Collected in Less Time, With Less Blind Spots

More Efficient than Tradi onal RTK

√ SOUTH Group has accumulated a decade of experience in the development of UAV
photogrammetry solu ons. This has led to the crea on of a unique and efficient
photogrammetry algorithm for INNO8. This allows INNO8 to directly collect both
image and coordinate data. Users can capture s ll photos or shoot videos while walking.
With just one group of photos or a video, users can obtain coordinates for all target
points within the measurable range, measuring hundreds of points in few minutes.

√ Compared to tradi onal photogrammetry equipment, INNO8’s data acquisi on speed is

faster. A er collec ng photos or videos, users can perform real- me automa c processing
by using data collec on App on controller. This allows users to obtain coordinates without
the need for PC post-processing so ware, especially in me-sensi ve situa ons.

√ Compared to tradi onal RTK, INNO8 has a broader working range and fewer blind spots.
By photogrammetry func on, surveyors can remotely measure points that are without
GNSS signal or poor signal quality, from a well-signaled posi on. Points without satellite
signals, such as spaces under roo ops, can now be measured. Previously challenging blind
spots or places with severe mul path effects like dense tree areas or construc on sites
with mul ple obstacles, are now easier to measure.

Easy to Learn, Effortless to Use,

and Uncomplicated for Re-measurement

More User-friendly than Tradi onal RTK

√ When surveyors process photos in the controller App, they simply need to click on the same
point in just three photos to calculate the coordinates. This opera on is quite easy to learn.

√ A notable feature of photogrammetry is labor-saving. When using INNO8, surveyors can achieve
remote measurements at distances of up to 10 meters or even more (in ideal condi on),
elimina ng the need to physically approach each measurement point. This working method
significantly saves the surveyor's physical effort, reducing the labor involved in fieldwork.

√ In cases some data needs to be remeasured, surveyors do not have to return to the field. They
can simply click on the saved photos to obtain coordinates, making re-measurement a hassle-free
process.
 The Unique UAV Photogrammetry Algorithms from SOUTH
is Adding 10 Advantages to Tradi onal GNSS RTK
Wide Applications, Abundant Output,
Satisfying Return in Investment

More Versa le than

Tradi onal RTK
√ U lizing visual posi oning, surveyors can work at a rapid pace
in the field. Image data can be stored for a long period and
reused at any me. These features are par cularly suitable for
unconven onal GNSS measurement tasks such as recording
accident scenes and excava on sites for urban public facili es.

√ When using in conjunc on with SOUTH UAV, SGO, or other

third-party post-processing so ware, INNO8 not only outputs
coordinates but also various types of data such as images, 3D
models, point clouds, and supports mul ple coordinate
systems. This feature meets your diverse applica on needs for
various types of data and provides a richer output of results.

√ Considering the investment perspec ve, INNO8 stands out as a

more cost-effec ve and versa le op on for surveying tasks,
compared to other measurement equipment such as laser
scanners.

Your Safety, We Care

Safer than Tradi onal RTK

√ During measurements along the edges and central areas of busy
roads, safety risks are present for surveyors. To minimize these
risks, surveyors can u lize INNO8 visual posi oning to maintain
a safe distance from hazardous loca ons while comple ng their
work, ensuring maximum safety.

√ During measurements, the poten al hazards of conduc ng

surveys near water bodies, like rivers and lakes, should not be
underes mated. Visual posi oning aids users in mi ga ng risks in
comparable scenarios, ensuring their safety. Ensuring a secure
working approach is not just a personal requirement but also a
necessity for the well-being of your family.
Three Types of Image Data Processing Modes
-- Carefully Designed for Your Challenging Work Requirements

Cloud Server Online Processing, Balancing Performance and Efficiency

Designed for Urban Surveying

When surveyors have a high-quality internet connec on, they can
process image data online through the network and cloud servers.
INNO8 can obtain coordinate data for image measurements with
2cm accuracy in just a few minutes. This processing mode balances
high accuracy and fast processing speed.

Desktop Software Processing,

Leave More Time for Fieldwork

Designed for Users

with Tight Fieldwork
Schedules Data Controller Offline Processing,
What You See is What You Get
Some mes, surveyors have limited me for fieldwork and need
to collect the maximum amount of data in the shortest possible
me. In such cases, they can choose not to process data on-site
but instead use desktop data post-processing so ware to
Designed for Field Surveying
process image data a er returning to the office.
When outside the coverage area of internet, surveyors can achieve offline
This working mode offers richer measurement and calcula on processing of image data through the data controller app. This processing
func onali es, comprehensive data applica ons, allowing users mode boosts the fastest processing speed by saving me of uploading
to focus on data collec on outdoors, achieving the highest image data, providing 4cm accuracy results within 30 seconds.
point acquisi on speed, and making the most of their me.
 3D Modeling—Broadening Your Working Power is Our Duty and Privilege
One-Man 3D Modeling

Eyes on Now,
Be Prepared for Future
With INNO8, single-user standalone opera on is sufficient
to achieve 3D modeling, visually presen ng geographic
informa on data such as coordinates, areas, and volumes.
Model data can be transformed into different formats and
applied with various coordinate parameters based on
actual needs, making it adaptable to a wider range of
applica on scenarios.

One Data, Multiple Uses

Work in Complement for UAV Survey Data

Your Preferred Way Ensuring a Smooth

Surveyors can import the data outcomes from INNO8
into SOUTH UAV and other third-party modeling
Journey for Your Success
so ware for 3D modeling.
SOUTH's 3D modeling technology are fully u lized and transformed
SGO (PC version) and SurvStar (Android App) will also in INNO8. The results of image measurements by INNO8, can be
support 3D modeling func on in the future. Users can seamlessly integrated with data outcomes from DJI and other brand
choose the so ware that best suits the current UAV.
scenario and task requirements to achieve the highest
work efficiency. UAV surveys o en face challenges of data gaps, leading to
incomplete model outcomes. In such cases, surveyors can use INNO8
to collect image data on the ground and incorporate it into aerial
survey data as a supplement, thereby enhancing the overall model
outcome.
AR Stakeout

Stakeout Intui vely with

Live-view Video Display
Experience INNO8 AR stakeout by following the real- me, real-
scene guidance on the data controller display without
con nuously watching on the compass or leveling the pole.

In addi on to points, INNO8 can handle staking out lines and

curves with AR, which broaden its applica ons and is suitable for
more complex work demands. With AR stakeout, you can now
achieve quick and precise stakeouts with ease.

Smart LCD Touchscreen

Make Workflow Simpler and Smoother

INNO8 is though ully designed with a user-friendly interface featuring a large touchscreen to:
√ Quickly touch screen to switch working mode and datalink, without data controller or mobile devices

√ Quickly check system informa on on receiver screen, no need of other device

√ Quickly launch PPK measurement program, without handheld controller

√ Precisely display self-check status on receiver screen, saving me, never miss informa on
Farlink 2.0

Less Limita on
Be er Performance
Here comes the Farlink 2.0. A er years of hardware and
firmware updates, Farlink 2.0 can undertake larger data and
provide more stable transmission. Its communica on range
reach up to 15-20km, being a base can easily cover the
working area without moving it frequently.
In addi on, Farlink 2.0 can receive data from one specific
base. Even though there are several bases transmi ng with
the same frequency, your rover will receive data from the
correct base.

Each radio had extreme temperature-changing tes ng from-

20℃ to 60℃ to protect your device from changing
temperature.

The 4th Generation IMU

Almost All- me Usable

In 2023, we introduced two significant updates: Calibrate-free
Ini aliza on and Stability Improvement. Moving into 2024,
another noteworthy update has been implemented: the IMU
sensor now maintains usability when the pole is rotated.

Tradi onally, surveyors encountered issues where rota ng the

pole during changes in travel direc on or adjus ng receiver
a tude would occasionally disable the IMU. The latest update
effec vely eliminates the loss of Iner al-Measurement-Usable
Status in the majority of scenarios, enhancing IMU availability
and produc vity. During AR stakeout, visual posi oning and
3D modeling collec on, you can walk with your own pace
without worry about losing IMU, making workflow smooth.