Drone survey equipment has become an essential tool for surveying professionals in recent years. With the ability to capture high-accuracy data more efficiently and cost-effectively than traditional surveying methods, drones have revolutionized the industry. Surveying drones are equipped with a variety of payloads, including cameras, LiDAR sensors, and thermal imaging cameras, which can capture data from a bird’s eye view.
Drone survey equipment is used for a wide range of applications, including land surveying, construction site monitoring, and environmental mapping. Surveying drones equipped with LiDAR sensors are particularly useful for creating highly accurate 3D maps of terrain, buildings, and other structures.
These maps can be used to identify potential hazards, measure distances, and calculate volumes, making them an invaluable tool for construction and engineering projects.
When choosing drone survey equipment, it is important to consider factors such as the type of payload, flight time, and range. Prices for surveying drones can range from a few thousand to tens of thousands of pounds, depending on the features and capabilities of the drone.
However, the benefits of using drone survey equipment, such as increased efficiency and accuracy, make it a worthwhile investment for surveying professionals.
Here is our must carry drone survey equipment:
Drone with Interchangeable Payloads
A drone with interchangeable payloads is a versatile tool for drone surveying. It allows the user to easily swap out different sensors and cameras to fit the specific needs of the surveying project. This can save time and money by eliminating the need for multiple drones with different payloads.
One popular drone with interchangeable payloads is the DJI Matrice 300 RTK. This drone can be equipped with a variety of payloads, including a high-resolution camera, LiDAR sensor, and thermal imaging camera. The Matrice 300 RTK has a maximum flight time of up to 55 minutes and can fly in a variety of weather conditions.
The average price for the DJI Matrice 300 RTK is around £15,000, making it a significant investment for many surveying companies. However, the benefits of having a drone with interchangeable payloads can outweigh the cost
When choosing a drone with interchangeable payloads, it is important to consider the specific needs of the surveying project. Some factors to consider include the type of terrain, the size of the area to be surveyed, and the desired level of detail. It is also important to consider the compatibility of the drone with different payloads and the ease of swapping out the payloads.
Overall, a drone with interchangeable payloads can be a valuable tool for drone surveying. It allows for flexibility and customization to fit the specific needs of the project. By carefully considering the specific needs of the project and choosing the best drone with interchangeable payloads, surveying companies can improve efficiency and accuracy in their work.
For more information on the DJI Matrice 300 RTK, visit DJI’s website.
RTK/PPK GPS System
When it comes to drone surveying, one of the most important pieces of equipment is an RTK/PPK GPS system. This system consists of a module mounted on the drone and a base or ground station located somewhere within the survey area. Each GPS measurement made by the drone is measured against its distance from the ground station.
The main benefit of an RTK/PPK GPS system is that it provides highly accurate geolocation data for each photo taken by the drone. This helps to ensure that the resulting map or 3D model is as accurate as possible. In fact, RTK/PPK systems can provide centimeter-level accuracy, which is essential for many surveying applications.
When choosing an RTK/PPK GPS system, there are a few key factors to consider. First and foremost, it’s important to choose a system that is compatible with your drone. Additionally, you’ll want to consider the accuracy of the system, as well as any additional features or capabilities that may be important for your specific use case.
The cost of an RTK/PPK GPS system can vary widely depending on the specific system and its features.
On average, you can expect to pay anywhere from £2,000 to £10,000 for a high-quality RTK/PPK system. While this may seem like a significant investment, the increased accuracy and efficiency provided by the system can more than justify the cost in many cases.
Overall, an RTK/PPK GPS system is an essential piece of equipment for anyone looking to conduct high-precision drone surveys. By providing accurate geolocation data for each photo taken by the drone, these systems can help ensure that the resulting map or 3D model is as accurate as possible.
Ground Control Points (GCPs)
Ground Control Points (GCPs) are critical components of drone surveying equipment. GCPs are set points on the ground that have a known geographic location. They are used as reference points to establish an accurate position of photogrammetric or LiDAR data to a coordinate system that the surveyor is working in. By having known coordinates selected and marked out before collecting any data, surveyors can increase accuracy and have a frame of reference for their entire project.
There are different types of GCPs available on the market, including Aerotas Ground Control Points, Propeller AeroPoints, and DJI Enterprise GCPs. The average price of GCPs is around £90.00 for a 16″ x 16″ target.
The benefits of using GCPs are numerous. They help deliver as accurate an aerial map as possible, which is critical for surveying, mapping, and inspection applications. They also save time and effort associated with lugging around and picking up bulky/expensive tiles.
When choosing the best GCPs for a project, it is essential to consider factors such as accuracy, durability, and ease of use. Additionally, surveyors must ensure that the GCPs they choose are compatible with their drone and software.
Overall, GCPs are a crucial component of drone surveying equipment. They offer surveyors a reliable and accurate way to establish reference points and improve the accuracy of their data. DJI EnterpriseAerotasPropeller Aero
Rugged Tablet or Smartphone
When it comes to drone surveying, having a rugged tablet or smartphone can be a game-changer. These devices are designed to withstand tough conditions, making them ideal for use in the field.
They offer a number of benefits, including:
- Durability: Rugged tablets and smartphones are built to withstand drops, shocks, and exposure to the elements. This makes them ideal for use in environments where other devices might fail.
- Portability: Tablets and smartphones are lightweight and easy to carry, making them convenient for use in the field.
- Connectivity: Most rugged tablets and smartphones come with built-in Wi-Fi and cellular connectivity, allowing users to stay connected to the internet and their colleagues while in the field.
When choosing a rugged tablet or smartphone for drone surveying, there are a few things to consider:
- Operating System: Make sure the device runs an operating system that is compatible with the software you will be using for your drone surveys.
- Battery Life: Look for a device with a long battery life to ensure it lasts throughout the day.
- Screen Size: Consider the size of the screen you need for your work. A larger screen may be easier to read, but it will also be heavier and less portable.
- Price: Rugged tablets and smartphones can range in price from a few hundred to several thousand pounds. Consider your budget and the features you need when making a decision.
Some popular options for rugged tablets and smartphones include the Panasonic Toughpad FZ-G1, the Getac Z710, and the Samsung Galaxy Tab Active2. These devices are designed to withstand tough conditions and offer a range of features that make them ideal for use in drone surveying.
Overall, a rugged tablet or smartphone can be a valuable tool for drone surveying. It offers durability, portability, and connectivity, making it ideal for use in the field.
When choosing a device, consider the operating system, battery life, screen size, and price to find the best fit for your needs.
Drone Flight Planning Software
Drone flight planning software is a crucial part of any drone surveying operation. It allows surveyors to plan and execute their drone flights with precision and accuracy. The software helps to ensure that the drone covers the entire survey area and captures all the necessary data.
One popular drone flight planning software is DJIFlightPlanner. It is a Windows-based software that allows users to pre-plan a photogrammetric aerial survey for their UAV. The software is easy to use, and a full perpetual license is only £99. DJIFlightPlanner also offers a free demo for users who want to try it out before purchasing.
Another great option is FlightHub 2 by DJI. It is an all-in-one cloud platform for drone operations that is built to maintain integrity across multiple levels of the drone and data management process. FlightHub 2 helps to ensure that data upload and transmission, cloud service storage, and operational security are all maintained at a high level.
When choosing the best drone flight planning software for your surveying needs, it is important to consider factors such as ease of use, compatibility with your drone, and the features offered. Additionally, it is important to consider the level of support provided by the software provider, as well as the cost of the software.
Overall, drone flight planning software is a critical tool for any drone surveying operation. It helps to ensure that the survey is conducted accurately and efficiently, allowing surveyors to collect high-quality data and make informed decisions based on that data.
Average price: £99 for DJIFlightPlanner perpetual license.
We can confidently say that investing in smart batteries for your drones is essential. Not only do smart batteries provide valuable information on battery health, charge cycles, and remaining capacity, but they also help ensure longer flight times and optimal performance for your drone survey missions.
At Leslie Drones, we’ve witnessed firsthand the difference that smart batteries can make in the field. With their real-time monitoring of battery life and temperature, we’ve been able to extend our surveying sessions without worrying about unexpected power loss. Moreover, the advanced charging features of smart batteries significantly reduce the risk of overcharging or damaging the battery, ultimately extending the overall life of your equipment.
By investing in smart batteries, you’re not only guaranteeing the reliability and efficiency of your drone operations but also saving both time and resources in the long run.
Trust us, it’s a game-changer.
When it comes to drone surveying equipment, spare batteries are a must-have. They are used to power the drone and keep it in the air during surveys. Having spare batteries ensures that the survey can continue uninterrupted, without the need to stop and recharge the drone’s battery.
The price of spare batteries varies depending on the brand and model of the drone. On average, a spare drone battery costs around £50 to £150.
When choosing spare batteries for drone surveying, it is important to consider the battery’s capacity and voltage. Higher capacity batteries will provide longer flight times, while higher voltage batteries will provide more power to the drone’s motors. It is also important to choose batteries that are compatible with the drone being used.
Some popular spare batteries for drone surveying include:
- Parrot AR.Drone 2.0 1500mAh Drone Replacement Battery
- Zerotech D150 Dobby Pocket Selfie Drone 1300mAh Drone Replacement Battery
- DJI Phantom 4 Phantom 4 Pro 5200mAh Drone Replacement Battery
- Syma X5HC X5HW X5UW 1200mAh Drone Replacement Battery
- Huajun W609-10 W609-9 650mAh Drone Replacement Battery
These spare batteries are all designed to be used with specific drone models and have varying capacities and voltages.
Overall, having spare batteries for drone surveying equipment is essential to ensure that surveys can be completed without interruption. By choosing the right spare batteries with the correct capacity and voltage, surveyors can maximize their flight time and productivity.
It’s crucial to address the importance of portable battery chargers. These indispensable tools tie everything together, ensuring that you can recharge your batteries on-the-go and maintain peak performance throughout your surveying missions.
At Leslie Drones, we’ve found that utilizing portable battery chargers in tandem with our smart and spare batteries has transformed our drone surveying capabilities.
In remote locations or when working on large-scale projects, the ability to recharge our batteries on-site has proven invaluable. With a portable charger at our disposal, we can keep our fleet of drones in the air for extended periods, maximizing the area we can cover and reducing the need for additional trips.
When searching for a portable drone battery charger, it’s essential to consider several factors to ensure you select the best option for your needs.
Here is some advice for people looking to purchase a portable battery charger for their drone:
- Compatibility: Make sure the charger is compatible with your drone’s battery type, voltage, and connectors. Some chargers are designed specifically for certain drone models or battery types, so double-check the specifications to ensure a proper fit.
- Charging Speed: Look for a charger with a fast charging rate to minimize downtime and keep your drone in the air for longer periods. However, be cautious not to choose a charger with a charging rate too high for your batteries, as this can lead to overheating or damage.
- Multi-battery Charging: Consider a charger that can charge multiple batteries simultaneously. This will save you time and allow for more efficient charging, especially when working on extensive surveying projects.
- Smart Charging Features: Opt for a charger with smart charging capabilities, such as automatic shutoff when the battery is fully charged, temperature monitoring, and short-circuit protection. These features help ensure the safety and longevity of your drone survey batteries.
- Portability and Power Source: Choose a charger that is compact and lightweight, making it easy to transport and store. Also, consider the charger’s power source – whether it requires AC or DC power, or if it can be powered by a car’s cigarette lighter socket or a portable solar panel for greater flexibility in the field.
By keeping these factors in mind and carefully evaluating your specific needs, you can confidently select the best portable drone battery charger to enhance your surveying capabilities and ensure reliable, efficient power management in the field.
In summary, portable battery chargers act as the perfect complement to your smart and spare batteries, creating a cohesive power management solution for your drone surveying needs. By incorporating all three elements, you’ll be well-equipped to tackle any surveying project with ease, efficiency, and confidence.
Memory cards are an essential component of drone surveying equipment. They are used to store all the captured video and photos during a mapping mission. The majority of drones use SD or microSD memory cards as their standard storage option. Memory cards are available in different capacities, ranging from 16GB to 512GB, and can be purchased at various price points.
The main benefit of using memory cards is that they allow for easy transfer of data from the drone to a computer for processing. This is especially important for large-scale mapping missions, where the amount of data collected can be substantial. Memory cards also provide a backup in case of data loss or corruption, which can occur during the transfer process.
When choosing a memory card for drone surveying, it is important to consider the capacity and speed of the card. Higher-capacity cards are ideal for longer mapping missions, while faster cards are better suited for capturing high-resolution images and videos. It is also important to choose a card that is compatible with the drone being used.
The average price of memory cards for drone surveying ranges from £10 to £100, depending on the capacity and speed of the card. Some popular brands of memory cards for drone surveying include SanDisk, Samsung, and Lexar. It is recommended to purchase memory cards from reputable brands to ensure reliability and compatibility with the drone being used.
Memory cards are an essential component of drone surveying equipment. They provide a reliable and easy way to store and transfer data from the drone to a computer for processing.
When choosing a memory card, it is important to consider the capacity, speed, and compatibility with the drone being used.
Memory Card Reader
Memory card readers are essential equipment for drone surveying. They are used to transfer data from the drone’s memory card to a computer or other device for further processing. The memory card reader is a small device that reads the memory card and transfers the data to the computer.
The average price of a memory card reader for drone surveying is around £30.00. There are many different types of memory card readers available, and choosing the right one can be a daunting task. When choosing a memory card reader, it is important to consider the type of memory card used by the drone, as well as the speed and capacity of the card reader.
The benefit of using a memory card reader for drone surveying is that it allows for faster and more efficient data transfer. This is especially important for large data sets, as transferring data directly from the drone can be time-consuming and may result in data loss or corruption.
When choosing a memory card reader for drone surveying, it is important to look for a device that is compatible with the type of memory card used by the drone. In addition, it is important to look for a device that is fast and reliable, with a high transfer speed and a large capacity. Some popular memory card readers for drone surveying include the SanDisk Extreme Pro SD UHS-II Card Reader and the Lexar Professional USB 3.0 Dual-Slot Reader.
A memory card reader is an essential piece of equipment for drone surveying. It allows for faster and more efficient data transfer, which is critical for large data sets.
When choosing a memory card reader, it is important to consider the type of memory card used by the drone, as well as the speed and capacity of the card reader.
For more information on memory card readers for drone surveying, visit Amazon UK.
Hard Cases: Protecting Your Valuable Drone Survey Equipment
In the demanding field of drone surveying, safeguarding your equipment from potential damage is of the utmost importance. This is where hard cases come into play, offering an unparalleled level of protection for your drones, batteries, and accessories, ensuring that they remain secure during transportation and storage.
At Leslie Drones, we recognize the value of investing in high-quality hard cases for our drone survey equipment. These rugged cases, typically crafted from impact-resistant materials and featuring foam inserts that are custom-designed to fit the specific contours of your equipment, provide exceptional protection against physical damage, moisture, and dust.
This added security gives us peace of mind, knowing that our valuable gear is well-protected from the elements and any unforeseen accidents.
In addition, hard cases contribute to a more organized and efficient workflow, as they allow for easy storage and quick access to all necessary components during survey missions.
When you consider the time-sensitive nature of many drone surveying projects, this streamlined organization can significantly enhance your overall productivity.
Incorporating hard cases into your drone survey equipment arsenal is a smart decision that will not only extend the lifespan of your gear but also contribute to a more efficient and effective surveying process. The investment in protection pays off in the long run, making hard cases an essential addition to any drone surveyor’s toolkit.
When conducting drone surveys, it is important to have a reliable and sturdy landing pad to ensure a safe take-off and landing for your drone. A drone landing pad is a flat surface that provides a safe and stable platform for your drone to land on. It is typically made of durable materials such as nylon or rubber, and comes in various sizes to accommodate different types of drones.
The benefit of using a drone landing pad is that it protects your drone from dust, dirt, and debris that can be kicked up during takeoff and landing. It also helps prevent damage to the drone’s propellers and landing gear, which can be costly to repair or replace. Additionally, a landing pad can provide a clear and visible marker for your drone’s landing zone, which can be useful when conducting surveys in remote or unfamiliar areas.
When choosing a drone landing pad, there are several factors to consider. Firstly, the size of the landing pad should be appropriate for the size of your drone. It should be large enough to accommodate the drone’s landing gear and provide enough space for takeoff and landing. Secondly, the landing pad should be made of durable and waterproof materials to withstand various weather conditions.
Finally, it should be easy to set up and transport, especially if you are conducting surveys in remote or hard-to-reach locations.
The average price of a drone landing pad ranges from £15 to £50, depending on the size and quality of the material. Some popular brands include FlatHat, PGYTECH, and Cynova. It is important to invest in a high-quality landing pad to ensure the safety and longevity of your drone.
Propeller guards are an essential piece of equipment for drone surveying. They are designed to protect the drone’s propellers from damage during flight, especially when flying in areas with obstacles or in windy conditions. They come in different sizes and shapes, depending on the drone model and the type of surveying work.
The main benefit of using propeller guards is that they can prevent costly damage to the drone’s propellers, which can impact the accuracy of the survey data. They can also prevent injuries if the drone accidentally collides with a person or object. Additionally, some propeller guards can improve the drone’s stability and reduce the noise level during flight.
When choosing propeller guards, it’s important to consider the compatibility with the drone model and the type of surveying work. Some propeller guards are designed for specific drone models, while others are universal. It’s also important to choose a propeller guard that is lightweight and won’t significantly impact the drone’s flight time or battery life.
The average price of propeller guards ranges from £10 to £50, depending on the brand, material, and design. Some popular brands of propeller guards include DJI, Propeller, and Hensych.
Overall, propeller guards are a necessary accessory for drone surveying, providing protection and stability during flight. By choosing the right propeller guard for the drone and surveying work, surveyors can ensure accurate and safe data collection.
When it comes to drone surveying, having spare propellers is essential. Propellers can become damaged or worn out during flights, which can lead to inaccurate data collection or even crashes. Having spare propellers on hand can help prevent these issues and ensure that surveying operations can continue without delay.
There are a variety of spare propellers available on the market, each with their own unique features and benefits. Some propellers are designed for specific drone models, while others are more universal. It is important to choose a spare propeller that is compatible with your drone and meets your specific needs.
One popular option for spare propellers is the DJI Phantom 4 Pro Quick Release Propellers. These propellers are designed specifically for the DJI Phantom 4 Pro drone and are easy to install and remove. They are made of durable materials and are designed to provide stable flight performance.
Another option is the Hubsan H107 Propeller Set. This set includes four propellers that are compatible with a variety of Hubsan drone models. They are made of high-quality materials and are designed to provide efficient and stable flight performance.
The average price for spare propellers ranges from £10 to £50, depending on the brand and model. While it may be tempting to opt for the cheapest option, it is important to choose a high-quality propeller that will provide reliable performance and help ensure accurate data collection.
Overall, having spare propellers on hand is a crucial part of any drone surveying operation. By choosing a high-quality spare propeller that is compatible with your drone, you can help prevent delays and ensure that your surveying operations run smoothly.
Camera filters are an essential accessory for drone surveying equipment. They are used to improve the quality of images captured by the camera on board the drone. Camera filters help to reduce glare, increase contrast, and enhance the overall quality of the image.
The most common types of camera filters used in drone surveying are polarizing filters and neutral density filters. Polarizing filters are used to reduce glare and reflections from surfaces such as water or glass. They can also help to increase color saturation and contrast, resulting in more vivid and detailed images. Neutral density filters, on the other hand, are used to reduce the amount of light entering the camera. This can be useful when capturing images in bright sunlight, as it allows for slower shutter speeds and wider apertures, resulting in more natural-looking images.
When choosing a camera filter for drone surveying, it is important to consider the specific requirements of the project. Factors such as lighting conditions, the type of surface being surveyed, and the desired level of detail will all play a role in determining the best filter to use. It is also important to consider the quality of the filter itself, as a poor quality filter can actually detract from the quality of the image.
Camera filters for drone surveying equipment can range in price from around £20 to £100 or more, depending on the brand and quality of the filter. It is important to invest in a high-quality filter that is specifically designed for use with drone cameras, as this will ensure the best possible results. Some popular brands of camera filters for drone surveying include PolarPro, DJI, and Tiffen.
Overall, camera filters are an essential accessory for drone surveying equipment. They can help to improve the quality of images captured by the drone camera, resulting in more accurate and detailed survey data. When choosing a camera filter, it is important to consider the specific requirements of the project and invest in a high-quality filter that is specifically designed for use with drone cameras.
A gimbal stabilizer is an essential piece of equipment for drone surveying. It is a device that helps stabilize the camera mounted on the drone, allowing it to capture clear and steady footage during flight. The gimbal stabilizer is particularly useful for surveying tasks that require high precision and accuracy.
The gimbal stabilizer works by using a series of motors to keep the camera level and steady while the drone is in motion. This helps to eliminate any unwanted camera movement, such as vibration or shaking, which can distort the footage and make it difficult to analyze.
When choosing a gimbal stabilizer, it is important to consider several factors, including compatibility with your drone, camera weight and size, and the level of stabilization required. Some of the best gimbal stabilizers on the market include the DJI Ronin-S, the Zhiyun Crane 3S, and the Moza AirCross 2. These stabilizers range in price from £300 to £600, depending on the model and features.
The benefits of using a gimbal stabilizer for drone surveying are numerous. Firstly, it allows for more accurate and precise data collection, as the footage is clear and steady. This is particularly important for tasks such as mapping and 3D modeling, where even the slightest camera movement can affect the accuracy of the data. Additionally, the use of a gimbal stabilizer can help to reduce the time and cost involved in post-processing the data, as the footage will require less editing and correction.
In conclusion, a gimbal stabilizer is an essential piece of equipment for drone surveying, providing clear and steady footage for accurate data collection. When choosing a gimbal stabilizer, it is important to consider compatibility, camera weight and size, and the level of stabilization required.
The DJI Ronin-S, Zhiyun Crane 3S, and Moza AirCross 2 are all excellent options, with prices ranging from £300 to £600.
Payload Release Mechanism
A payload release mechanism is an essential tool for drone surveying. It allows the drone to drop or release a payload at a specific location, making it ideal for surveying large areas or delivering goods. The mechanism is typically attached to the drone’s underside and can be triggered remotely by the operator.
There are several types of payload release mechanisms available on the market, ranging from simple mechanical systems to more advanced electronic solutions.
The price of these mechanisms can vary greatly, with some models costing as little as £50, while others can cost upwards of £500.
When choosing a payload release mechanism, it is important to consider several factors. The first is the weight capacity of the mechanism. Some models can only carry small payloads, while others can handle heavier loads. The second factor to consider is the release mechanism itself. Some models use a simple mechanical release, while others use a more advanced electronic system.
Another consideration when choosing a payload release mechanism is compatibility with your drone. Some models are designed specifically for certain drone models, while others are more universal. It is important to ensure that the mechanism you choose is compatible with your drone to ensure optimal performance.
Overall, a payload release mechanism is an essential tool for drone surveying. It allows for precise delivery of payloads and can be used in a variety of applications, from surveying to delivering goods. When choosing a mechanism, it is important to consider factors such as weight capacity, release mechanism, and compatibility with your drone to ensure optimal performance.
Some popular options for payload release mechanisms include:
- UAV Systems International Payload Release Drop Mechanism – priced at £299.95, this mechanism can carry up to 1.5 kg and is compatible with the Tarot 650 v2.2 drone.
- DJI M300 Payload drop release mechanism – priced at £399, this mechanism is designed specifically for the DJI M300 drone and can carry up to 5 kg.
- Drone Sky Hook Release & Drop Device – priced at £499, this mechanism is compatible with a variety of DJI drone models and can be triggered by rotating the drone or using the remote control.
High-Precision GNSS Receiver
A High-Precision GNSS Receiver is a crucial piece of equipment in drone surveying. It is used to accurately determine the position of a drone in three dimensions, allowing for precise mapping and surveying. This type of receiver utilizes Real-Time Kinematic (RTK) technology, which provides centimeter-level accuracy in positioning.
The benefit of using a High-Precision GNSS Receiver in drone surveying is that it allows for more accurate data collection and mapping. This is particularly important in applications such as land surveying, precision agriculture, and construction site mapping, where precise measurements are required. With a High-Precision GNSS Receiver, drone operators can achieve higher levels of accuracy and efficiency in their work.
When choosing a High-Precision GNSS Receiver, there are several factors to consider. These include the number of satellite constellations the receiver can track, the receiver’s update rate, and the receiver’s compatibility with other surveying equipment. Additionally, it is important to consider the cost of the receiver, as High-Precision GNSS Receivers can range in price from a few thousand to tens of thousands of pounds.
One popular High-Precision GNSS Receiver is the Trimble R12, which can track up to six satellite constellations and has an update rate of up to 20 Hz. The R12 is also compatible with a range of other surveying equipment, making it a versatile option for drone surveying applications. The average price of the Trimble R12 is around £15,000.
Another option is the Emlid Reach RS2, which is a more affordable High-Precision GNSS Receiver, with an average price of around £1,500. The Reach RS2 can track up to three satellite constellations and has an update rate of up to 14 Hz. While it may not be as feature-rich as some of the more expensive options, the Reach RS2 is still a powerful tool for drone surveying applications.
Mobile Device Holder
A mobile device holder is an essential accessory for drone surveying. It is used to attach a smartphone or tablet to the drone controller, allowing the operator to view live video footage and control the drone’s movements. The holder securely grips the mobile device, preventing it from falling off during flight.
When choosing a mobile device holder, there are several factors to consider. First, make sure it is compatible with the specific drone model being used. Second, consider the size of the mobile device being used, as the holder must be able to accommodate it. Third, look for a holder that is adjustable, allowing for different viewing angles. Fourth, consider the material and build quality, as a sturdy holder will provide more stability during flight.
One popular mobile device holder is the DJI Mavic Air 2 Remote Controller Phone Holder, which is compatible with the DJI Mavic Air 2 drone. It is adjustable, fitting devices up to 7 inches in size, and is made of high-quality materials for durability. The holder also features a foldable design for easy storage and transport. The average price for this holder is around £20.
The benefit of using a mobile device holder in drone surveying is that it allows the operator to view live video footage and control the drone’s movements in real-time. This is especially useful for surveying large areas, as it allows for more precise and efficient data collection. Additionally, using a mobile device holder frees up the operator’s hands, allowing them to focus on controlling the drone and collecting data.
In conclusion, a mobile device holder is an essential accessory for drone surveying. When choosing a holder, consider factors such as compatibility, size, adjustability, and build quality. The DJI Mavic Air 2 Remote Controller Phone Holder is a popular option that provides durability, adjustability, and a foldable design for easy storage and transport.
For more information on drone survey equipment, check out Microdrones and Heliguy Survey Assist.
Drone Signal Booster
Drone signal boosters are essential equipment for drone surveying. They are used to boost the power of a signal before it is delivered to the antenna of the transmitter, giving the signal sufficient strength to travel the distance required once transmitted. This is particularly important for UAVs that fly long distances and need to maintain a constant high-rate communications link. The signal booster can extend the range of the drone, allowing it to fly further and capture more data.
There are different types of drone signal boosters available on the market, and choosing the right one can be challenging. The most important factors to consider when choosing a drone signal booster are range, frequency, and compatibility. The range of the signal booster determines how far the drone can fly, while the frequency determines the strength of the signal. Compatibility is also essential because not all signal boosters are compatible with all drones.
The average price of a drone signal booster is around £100 to £300. One example of a drone signal booster is the Threeking Signal Booster. This booster is designed for DJI Mavic Pro and DJI Spark drones and can extend the range of the drone up to 50%. It is easy to install and can be used with or without the controller. Another example is the Skyreat Signal Booster, which is compatible with the DJI Mavic Air 2 and DJI Mini 2 drones. It claims to increase the range of the drone by up to 30% and is easy to install.
The benefits of using a drone signal booster are clear. By extending the range of the drone, it can cover more ground and capture more data. This can be particularly useful in large-scale surveying projects where the area to be surveyed is extensive. The signal booster can also improve the quality of the data collected by reducing the risk of signal loss or interference.
When choosing a drone signal booster, it is essential to consider the specific needs of the surveying project. The range, frequency, and compatibility of the booster should be carefully evaluated to ensure that it meets the requirements of the project. It is also important to choose a reputable brand and read reviews from other users to ensure that the product is reliable and effective.
Collapsible cones are an essential tool for drone surveying. They are used to mark off areas of interest, such as the boundaries of a survey, or to indicate obstacles or hazards that need to be avoided. These cones are designed to be easily collapsible, so they can be quickly set up and taken down, making them ideal for use in the field.
Collapsible cones come in a variety of sizes and materials, so it’s important to choose the right one for your needs. Generally, the larger the cone, the more visible it will be from a distance, which is important for surveying large areas. It’s also important to choose a cone made from a durable material, such as plastic or rubber, that can withstand wind and other weather conditions.
The average price of collapsible cones for drone surveying is around £15-£20 per cone. Some cones come in sets of four, making them more cost-effective for larger projects.
The benefit of using collapsible cones is that they provide a clear visual marker for surveying areas, which helps to ensure accurate and precise data collection. They are also easy to transport and set up, making them a convenient tool for field work.
When choosing a collapsible cone, it’s important to consider factors such as size, material, and cost. It’s also a good idea to read reviews and compare different products to find the one that best meets your needs.
Overall, collapsible cones are a valuable tool for drone surveying projects. They provide a clear visual marker for surveying areas, and are easy to transport and set up in the field.
For more information on collapsible cones for drone surveying, visit Heliguy.
A wind meter is a device that measures the speed and direction of the wind. It is an essential tool for drone surveying, as wind conditions can greatly affect the accuracy and safety of the survey. The wind meter is used to determine whether it is safe to fly the drone and to adjust the flight plan accordingly.
The wind meter is typically a small handheld device that is easy to carry around. It usually consists of a digital display that shows the wind speed and direction, as well as other information such as temperature and humidity. Some wind meters also come with built-in data logging capabilities, which allow the user to record and analyze wind data over time.
The average price of a wind meter is around £50-£100. However, there are more expensive models available that offer additional features and capabilities.
When choosing a wind meter for drone surveying, it is important to consider several factors. The first is the detection range. The wind meter should be able to detect wind speeds as low as 0.3m/s and as high as 69mph, to ensure accurate and reliable readings.
Another important factor is the durability of the wind meter. It should be able to withstand harsh weather conditions, such as rain, wind, and extreme temperatures, to ensure reliable performance in the field.
Finally, it is important to choose a wind meter that is easy to use and read. The display should be clear and easy to read, and the device should be easy to operate with one hand.
Overall, a wind meter is an essential tool for drone surveying, as it allows the user to accurately measure wind conditions and adjust the flight plan accordingly. By choosing a high-quality wind meter that is durable, reliable, and easy to use, drone surveyors can ensure the safety and accuracy of their surveys.
Some recommended wind meters for drone surveying are:
- Handheld Anemometer Wind Speed Meter
- WeatherFlow Wind Meter for Smartphones
- Proster Handheld Anemometer Wind Speed Gauge
Sunshade for Mobile Device
When conducting drone surveys, it’s important to have a clear view of the mobile device screen to ensure accurate data collection. However, direct sunlight can cause glare and make it difficult to see the screen. A sunshade for mobile devices can solve this problem.
A sunshade is a cover that attaches to the mobile device and provides shade to the screen. It can be used with smartphones, tablets, and other mobile devices. The shade blocks out direct sunlight, reducing glare and making it easier to see the screen.
The average price of a sunshade for mobile devices is around £20-£30. There are many different types and brands available, so it’s important to choose one that is compatible with your device and meets your specific needs.
When choosing a sunshade, consider the size of your device, the type of drone you’ll be using, and the environment in which you’ll be conducting your survey. Some sunshades are designed specifically for certain models of drones or mobile devices, so be sure to check compatibility before making a purchase.
The benefits of using a sunshade for mobile devices include improved visibility, reduced eye strain, and increased accuracy in data collection. By reducing glare and providing shade to the screen, a sunshade can help drone surveyors work more efficiently and effectively.
Overall, a sunshade for mobile devices is a valuable accessory for drone survey equipment. It can help improve visibility and accuracy in data collection, making it a worthwhile investment for any drone surveyor.