DTBird systems were evaluated by the Renewable Energy Wildlife Institute (REWI) in two wind farms: Manzana (California) and Goodnoe Hills (Washington) to measure the detection and deterrence effectiveness in large raptors, especially Golden and Bald Eagles. The REWI technical report, funded by the U.S. Department of Energy and supported by multiple stakeholders in the renewable energy industry, offers a comprehensive evaluation of these DTBird models' detection and deterrence systems. This evaluation is crucial for environmental regulators to establish requirements in the wind farm environmental permissions to comply with environmental regulations such as the Bald and Golden Eagle Protection Act and the Migratory Bird Treaty Act.

Study Setup:
• Manzana: DTBird V4D4 model (2016) installed on 7 wind turbine generators (WTGs) with 65m tower height and 82.5m rotor diameter. 9-month pilot study.
• Goodnoe Hills: DTBird V4D8 model (2019) installed on 14 WTGs with 87m tower height and 110m rotor diameter. 2-year study.

Key Findings:
After three years of data collection, we have summarized the main results:

1. Significant Reduction in Eagles and Raptors’ Collision Risk
DTBirdV4D4 and DTBirdV4D8 (models 2019 and 2021, respectively) reduced the likelihood of golden eagles and other large raptors entering the rotor-swept zone (RSZ) by 20-30%, with an even higher deterrence rate (over 40%) for eagles approaching or flying directly toward the RSZ.

2. Detection Efficacy Across Multiple Sites
To measure the detection efficacy, eagle-like unmanned aerial vehicle (UAV) flights were carried out. After analyzing the data, they obtained the following results:
• The overall probability of detecting large raptors was 65% within 240 meters from cameras.
• The highest detection rate was ~75 % (at 50 – 75 m); at 240m the detection probability was ~50%; and at 380m, it was ~30%.
• The likelihood of missing a detectable flight was generally less than 20% when the minimum line of sight distance to the camera was approximately 30 to 120 meters. This probability increased to less than 30% at distances below 20 meters and between 120 and 160 meters. However, it exceeded 50% at distances greater than 200 meters.

3. Deterrence Efficacy Across Multiple Sites
The main results were:
• For large raptors, 73% of the cases at the Manzana site and 63% at Goodnoe Hills were classified as either confirmed or potentially effective responses.
• Examining specific species or groups, the response rates were: for golden eagles, 79% at the Manzana site compared to 60% at Goodnoe Hills; for turkey vultures, 81% at Manzana versus 61% at Goodnoe Hills; and for buteos, 72% at Manzana compared to 56% at Goodnoe Hills.
Other results include:
• The rate of False Positive (FPs) triggering deterrence in Manzana was 1.2 – 1.8 FP/turbine/day and 0.8 minutes/turbine/day. In Goodnoe Hills, it was 0.8 FP/turbine/day and 0.96 minutes/turbine/day, after fine-tuning (starting at 3.9 FP/turbine/day).
• The rate of deterrence triggered by Non-targeting Avian False Positive (NTAFP) was 40% in Manzana and 36% in Goodnoe Hills.
• Researchers were afraid that eagles could become less responsive to deterrent signals, but this negative habituation did not occur. Eagles spent less time near turbines when the deterrence signal was activated frequently, even by FPs.

4. Behavioral responses to deterrence signals
In Goodnoe, they could compare the effect of deterrence in avoidance behavior between DTBird systems with sound muted versus systems with sound activated. The main results were:
• Deterrence reduced 24 – 27% the dwell time that eagles spent in the vicinity of the wind turbines (WTGs) in comparison with muted systems, with an average dwell time reduced to approximately 25 to 19 s per event. In the case of golden eagles, deterrence can reduce the dwell time by 29%, with an average dwell time reduction of 26 to 17 s per event.
Other results include:
• Birds responded better to deterrence signals in Manzana than in Goodnoe, possibly due to differences in resident/migratory birds, landscape, and climate conditions. However, the eagle’s response to the deterrence signal was higher in Goodnoe Hills than in Manzana.
• Eagles and vultures tended to respond better to deterrence signals as wind speed increased, but the opposite occurs with buteos.
• The probability of effective deterrence with wind above approximately 4 m/s was higher for eagles and vultures than for buteos and increased as the wind speed increased. For buteos, the probability decreased as the wind speed increased.
• For all raptors, the rate of effective deterrence was the highest in flights categorized as moderate risk, possibly because birds had enough time to maneuver effectively.

Opportunities for Further Innovation
While the REWI report underscores DTBird’s success, it also highlights opportunities for further refinement. For instance, improving camera resolution and further optimizing the AI algorithms used to detect birds against complex backdrops (such as clouds and moving turbine blades) could enhance the system's detection accuracy. In addition, AI can reduce the rate of FP and NTAFPs. Additionally, the report recommends regular camera lens maintenance to avoid solar degradation, which can impact detection capabilities.
We thank the project partners for their contributions and commitment to evaluating the DTBird system:  H.T. Harvey & Associates,  PacifiCorp,  Puget Sound Energy, Inc. (PSE),  Portland General Electric Company (PGE),  EDF Renewables North America,  Avangrid & Vestas American Wind Technology.

DTBird in 2024
DTBird is committed to implementing all improvement recommendations and is developing a new software, Larus. This software utilizes AI, including tracking and neural networks, to enhance detectability by approximately 20-30% per camera. It initiates a continuous process of improving detection, reducing false positives, and targeting specific species groups.

Additionally, new hardware models have been introduced, featuring 4 to 12 4K cameras. These models increase vertical surveillance from 77º to 90º and extend the maximum detection distance from an average of around 190 meters to between 500 and over 1,000 meters, depending on the model and configuration.

All DTBird modules can operate within the same WTG, providing detection and collision control to reduce bird collision risks. The Collision Avoidance module decreases collision risk and enhances the efficiency of the Stop Control module.
The new DTBird hardware and software are designed to be scalable, allowing for easy expansion. For more information on our latest DTBird models and recommended uses based on target species and WTG dimensions, please view our Catalogue!

In November, DTBird members will travel to Cádiz to attend the III Spanish Offshore Wind Congress, hosted by the Spanish Wind Energy Association (AEE) and the Andalusian Cluster of Renewable Energies and Energy Efficiency (CLANER). The Congress will occur on November 7th—8th at the Cádiz Conference Centre. As one of the few companies that operates in Offshore conditions, we are happy to announce that we are a Sponsor. We will have a small exhibition space so feel free to stop by and have a quick chat in between conferences!

From Cádiz, we will travel to exhibit as Sponsors at the 15th Wind Wildlife Research Meeting set to take place in Corpus Christi, Texas at the Omni Corpus Christi Hotel on November 12th-15th. This is a biennial event that provides an internationally recognized forum for attendees to share and engage in the latest science addressing the risk of wind energy to wildlife and developing solutions to avoid, minimize, and offset impacts. It brings together thought leaders to discuss priority topics and themes in the wind-wildlife setting.

If you are in town or nearby, please drop by and ask our team members all your queries about bird and bat monitoring at Wind Farms: Pricing, efficiency rates, lead times, track records, latest upgrades, and more. We look forward to making your acquaintance and working together on future projects!

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Subject 1: III Congreso Eólico Marino 2024
Subject 2: WWRM 2024

DTBird^® is a Sponsor at the III Spanish Offshore Wind Congress and 15th WWRM 2024.

During July, DTBird technicians traveled to an Onshore wind farm in Germany to install a new hardware model called ALBATROSS as well as new DTBat hardware. The scope of the project is to monitor bird and bat activity and also launch shutdown actions to reduce the collision risk.

ALBATROSS was designed to withstand harsher onshore climates and offshore conditions.

The DTBat system features a new omnidirectional microphone and ultrasound detector which offers an auto bat species identification software, a highly requested feature for our potential clients. DTBat is smart curtailment at work. Why smart? It takes into account not only environmental conditions but bat activity too.

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DTBird^® hardware model ALBATROSS and new DTBat^® hardware installed on a steel WTG.

During September DTBird members will travel to Tarragona to attend the 16th European Bat Research Symposium (EBRS) 2024. The Conference will occur on September 2nd - 6th at the Tarragona Conference & Exhibition Centre.

The symposium is a triennial conference dedicated to the study and conservation of bats in Europe, where researchers and conservationists meet to exchange knowledge and discuss recent advances in bat science and conservation, covering a wide range of topics (e.g., ecology, behavior, physiology, genetics and habitat conservation).

From Tarragona, we will travel to exhibit at WindEnergy Hamburg set to take place at the Hamburg Messe und Congress on September 24th-27th.

If you are in town or nearby, please drop by and ask our team members all your queries about bird and bat monitoring at Wind Farms: Pricing, efficiency rates, lead times, track records, latest upgrades, and more. We look forward to making your acquaintance and working together on future projects!

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Subject 1: EBRS 2024
Subject 2: WindEnergy Hamburg 2024

DTBird^® is a Sponsor at the EBRS 2024 and will exhibit at WindEnergy Hamburg 2024.

Two weeks ago, our new camera hardware model FALCO was officially installed at an Onshore Wind Farm in Spain!  We had already showcased it at WindEurope this March. More FALCOs are planned to be installed this year across different locations.

Why "FALCO"? We wanted to honor one of the bird families we are protecting with our products across our installations. Some of the basic features of this new hardware model are: 

• Small & lightweight like a Falcon
• IP67 and IK10 protection
• Rotor-swept area and long detection

DTBird FALCO is your scalable solution for bird protection!

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DTBird^® hardware model FALCO installed on a steel WTG.

On Friday, June 14th, we had our annual general company meeting with our employees outside our office. We prepared a series of DTBird Games with puzzles for them to solve scattered throughout the Retiro park. One lucky group won a series of handmade insect gifts from a former employee.

Afterward, they enjoyed a healthy coffee break and what followed was the meeting where Agustín Riopérez (CEO) and Javier Díaz (CTO) took to the stage. In short, they gave a summary of the current company state and future developments.

Once again, we renew our commitment and mission to bridge the wind industry with biodiversity protection!

DTBird^® Annual General Company Meeting.

During April DTBird members will travel to Gdańsk to attend the 2nd Wind Conference: Wind Power and Birds organized by PTAcom, a Friendly Investment Support Association. The Conference will occur on April 18th - 19th at the Hotel Almond Business & SPA. From Poland, we will travel off to southern France: Marseille for the Floating Offshore Wind Turbines Event (FOWT) set to take place at Le Palais du Pharo on April 24th-26th.

If you are in town or nearby, please drop by and ask our team members all your queries about bird and bat monitoring at Wind Farms: Pricing, efficiency rates, lead times, track records, latest upgrades, and more.

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Subject 1: 2nd Wind Conference: Wind Power and Birds 2024
Subject 2: FOWT Marseille 2024

DTBird^® Sponsors these events

The DTBird delegation had a busy stand exhibition during WindEurope Bilbao 2024! DTBird members Milagros Bonacchi (Marketing and Communications), Patricia Álvarez (Project Management), Déborah Olivier (Sales), and Agustín Riopérez (CEO) traveled to Bilbao for WindEurope's 2024 annual event. The Conference & Exhibition was held in the Bilbao Exhibition Centre from March 20th to March 22nd. During the exhibition, we showcased our new hardware camera models (FALCO & ALBATROSS) and ice protection design for all curious eyes.

We thank everyone who came by to greet us and took the time to learn about our products and new developments.

DTBird^® Stand Exhibition at WindEurope Bilbao 2024!

DTBird is selected in ELBE EUROCLUSTER Financial Support to Innovation call!

Back in September, DTBird presented a project for developing & testing a bird anti-rest effect prototype to be deployed at a Floating wind farm on the southern coast of France in 2024. This project has received funding from the European Union's Joint Cluster Initiatives programme under grant agreement No 101074230. And will last for 12 months.

Stay tuned for project updates throughout 2024!

DTBird^® ELBE Eurocluster Innovation Call

Scientific evaluation of the DTBat^® system in wind turbines with high mortality of bats.

Liquen (DTBird&DTBat) has a product, the DTBat^®, with more than 40 systems installed in several countries since 2012. DTBat uses ultrasonic detectors with microphones installed in various positions, tower and/or nacelle according to the characteristics of the wind turbine and the bat species that use their environment. This makes it possible to detect the presence of bats in real time, and to trigger the wind turbine stop signal when detection thresholds are exceeded (e.g. more than 3 detections in 30 min). The stop signal is prolonged in time as long as the activity is maintained. The activity thresholds are set for each wind turbine and are adjustable.

Compared to the wind speed shutdown protocol (e.g. wind turbine stopped below 6 m/s in an hourly period) the advantages are:

-         It allows to produce electricity at times of low wind when bat activity is low or non-existent.

-         It allows to protect bat species that have activity above the established wind value and that are only partially protected by the wind speed-based protocol.

We are seeking wind farm operators with specific wind turbines that have high rates of bat mortality.

The aim is to evaluate the technical capabilities of the DTBat^® to reduce the risk of collision by applying real-time wind turbine shutdown. We wish to be able to share this experience as a case-study or a scientific publication and to present the data in different scientific and business environments in the wind energy and conservation sector.

The project should also involve an environmental consultancy, NGO or administration for independent data processing and reporting. The Spanish Association for the Conservation and Research of Bats (SECEMU) is available to participate in the project.

Contact details: Milagros Bonacchi (Questo indirizzo email è protetto dagli spambots. È necessario abilitare JavaScript per vederlo.) & Ana Jara (Questo indirizzo email è protetto dagli spambots. È necessario abilitare JavaScript per vederlo.). Phone.: (+34) 91 344 90 86.

Subject: “DTBat Collaboration”

DTBat^®.