LEDIF (left, 1st pix) is placed inside the Autonomous Underwater Vehicle (AUV) dubbed the NUS ARL
STARFISH and launched at a reservoir.
1. Singapore – Researchers at the Singapore-MIT Alliance for Research and Technology (SMART)[新加坡-麻省理工学院科研中心]
have developed a low-cost and compact multi-platform compatible sensors that provides a holistic solution for the
monitoring of water resources. Like a “lab-on-a-chip”, this sensor dubbed ‘LEDIF’, is a powerful “lab-on-AUV” (see
picture above) that would go a long way in reinforcing efforts in safeguarding water resources while potentially
improving the efficiency and accuracy of monitoring water quality.
2. LEDIF (LED-Induced Fluorescence) [二极管引发荧光] is a field-deployable tri-optical instrument that uses a combined
optical technology to identify and quantify contaminants and natural substances in water. This combined optical technology
(a) Fluorescence – Emission of light by a substance that has absorbed light or other electromagnetic radiation
(b) Absorbance- Quantitative measure expressed as a logarithmic ratio between the radiation falling upon a material
and the radiation transmitted through a material
(c) Scattering - Irregular dispersal of waves or particles
LEDIF pioneers the theme of 'bringing lab to water' with an automated standalone tri-optical holistic technology featuring
both multi-excitation and broadband sources to enable 'lab-like' water chemistry assessment to be performed in-situ to
monitor water resources in real-time.
3. LEDIF (see Factsheet) is capable of detecting, measuring and 3-D mapping contaminants (e.g., oil spill, carcinogen
hydrocarbons) when put on-board autonomous platforms. Beyond contaminants, it is capable of detecting natural substances
(e.g. algae, coloured dissolved organic matter) in marine and urban environments; and climate-related sensing.
Commercially available in-situ sensing probes are usually limited to physical water properties or target a specific chemical.
4. Beyond being inside a ‘Yellow Submarine’ [as shown in picture of the STARFISH autonomous underwater vehicle which is
developed by the Acoustic Research Laboratory of the Tropical Marine Science Institute at the National University of
Singapore (NUS)], the LEDIF is actually compatible with multi-platforms (e.g. Autonomous Surface Vehicles, fixed platform,
and portable mode of sensing) to provide both 3-D chemical mapping and long-term continuous monitoring. These
applications are important in helping to ensure that waters resources are clean from industrial pollution, oil spills and
harmful algae growth.
5. Currently, most high precision organic matter detection procedures involve laboratory analysis of water samples, which
would probably be time-consuming and costly. Grab water samples at specific spots may also fail to adequately capture the
spatio-temporal variability, which may hold the key to understanding the biogeochemical processes in water bodies. In recent
years, in-situ water quality instruments installed on water bodies have helped to provide continuous, real-time data, but are
typically limited in spatial coverage due to their fixed locations.
6. Dr Kelvin Ng Chee-Loon (黃智倫), Research Scientist at SMART Centre for Environmental Sensing and Modeling (CENSAM),
said: “LEDIF, our proprietary technology has myriad applications from detecting accidental and intentional pollution for
implementing immediate counteractive action to quantifying natural occurring substances for research studies; providing a
holistic solution capable of 24/7 surveillance of water resources. Beyond detection, its ability to provide a 3-D chemical mapping
of the entire water body (which can be as large as 2 soccer fields), empowers agencies to better monitor the water situation
on a large scale in the long term.”
7. Professor Harold Hemond, SMART Principal Investigator and the William E. Leonhard Professor of Engineering at MIT, said:
“Having worked on this technology for the past 5 years, we are confident that our research will translate into a very powerful
tool for industries and governments alike in safeguarding and protecting our environment and water resources.”
8. This research is based on the paper “A multi-platform optical sensor for in situ sensing of water chemistry”. The AUV
deployment conducted locally was done in collaboration with the Acoustic Researc Laboratory of the Tropical Marine Science Institute at NUS (NUS ARL STARFISH). The research is funded by the Singapore National Research Foundation (NRF), Prime Minister’s Office,
Singapore under its Campus for Research Excellence And Technological Enterprise (CREATE) programme.
What is LEDIF?
LEDIF (LED-Induced Fluorescence) [二极管引发荧光] is a compact optical instrument utilizing fluorescence, absorbance and scattering principles for measurement. With dimensions of 20x20x15 cm, it can be packaged inside a compact enclosure and mounted at a fixed location or platform (such as buoy) or placed submerged underwater for long-term monitoring, having 3G/4G real-time data communication capability, and allowing users to automate defined tasks based on operation needs and literally empowering them with an automated optical laboratory in the water.
Its applications are varied and include the detection of the following:
3-D chemical mapping
LEDIF is capable of 3-D chemical mapping which optimises spatial observation of contaminants, thereby playing a pivotal role in identifying contaminant hotspots, among other benefits (see below). It can be mounted on an Autonomous Underwater Vehicle (AUV) such as the NUS STARFISH or MIT Reef Explorer vehicles to obtain the 3-D map.
Benefits of 3-D mapping:
1. Determining the source of contamination
2. Study effects of ambient conditions on targeted chemical
3. Optimising the placement of long-term continuous monitoring sensor
4. Filling out void of data in space quickly using autonomous mobility capability of platform (e.g. AUV)