BEEP base - Technical specifications

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Affordable and good quality measurement system

The key question we ask ourselves at Beep is: how can technology best be applied to support the health of honey bees? The goal is to design and build a measurement system together with others that has the following characteristics:

  • Measurements on bee colonies and hives do support decision making about bee health. Parameters:
    • Weight of the hive
    • Temperature (both inside and outside the hive)
    • Humidity
    • Sound in the hive
  • Affordable
  • Easy to use
  • Robust and durable
  • No recurring costs
  • Open source measurement system

 BMS v3 exploded

PCB

The Printed Circuit Board is the heart of the BEEP base, containing all electronics to measure sensors and send the data via the LoRa network to the BEEP app.

BEEP PCB v3

Open source system

Making an affordable and high quality measuring system is not an easy task, but luckily we are not alone. Bee sensor systems are not new to the market and different groups have shared and improved open source designs. We use and share knowledge with these groups and also share our designs. In this way we make use of the combined strength of many organisations and volunteers who have a great deal of knowledge in this area and who have often delved into it professionally. 

If you want to participate in the crowdfunding of version 3 of the BEEP measurement system, the BEEP Base, register here.

BEEP base v2

See under this link the previously developed version the measuring system (v2):

 View the open source Beep v2 measurement system

Beep V2 exploded

Specifications versie 2

Number produced:   12
Sensors:   Total weight of the hive, temperature and noise in the hive, ambient temperature and humidity
Microprocessor:   Atmega328p
Data transmission:    LoRa 868MHz (The Things Network of KPN)
Power source:   2 Lithium AAA batteries (± 1 year of data transmission)
Material / Production method:   CNC machined milled plywood and laser cut stainless steel


The measurement system V2 was tested in February 2019 under various conditions. Under and in the hives and in a test setup with different types of sensors. Ten of the systems were also tested under different temperature and air humidity conditions. The following conclusions have been drawn:

  1. Measuring temperature and humidity (both inside and outside the hive) is going well and provides relevant information.
  2. Sending the data wirelessly 1x per 15 minutes to 1x per hour (depending on the change in the measured values) goes well via the LoRa network.
  3. The system is energy efficient enough to be able to measure for two years on two AAA (thin penlight) batteries and to send data.
  4. Sound measurement is not yet working satisfactorily, as too few frequencies are being analyzed and more clarity is needed about the conclusions you can draw from this.
  5. We are also not completely satisfied with the long-term precision of the weight measurement at fluctuating outside temperatures.
  6. The CNC milling of the wood takes a lot of time: about 8 minutes per board and therefore 32 minutes per measuring system.
  7. The assembly time of one whole measurement system is now 3 to 4 hours. To be able to deliver an affordable measuring system, it must be possible to assemble the assembly in approximately 15-30 minutes, or to deliver it as a DIY kit. A clear draft is therefore needed here.

Focus on toughest measurement: long-term stable weight

Because the measurement of parameters such as temperature and humidity is running smoothly, our current focus is now on the important value: weight. Weight sensors, also called 'load cells', usually consist of an aluminum rod in which the deformation caused by a load is measured by a change in resistance of a small strain gauge. Load cells are designed to briefly weigh items such as people and goods.

In the case of the hive, however, we want to weigh continuously. Although the sensors are not always switched on (this is not necessary and would cost too much power), the load on the beehive always presses on the sensors. At the same time, environmental factors such as temperature and direct sunlight influence the measurements. In particular, shifting temperatures influence the readout of the load cells. In V1 we have corrected this in the software as well as possible and used this correction in the hardware and software of V2.

However, in the tests in a controlled environment we came to the conclusion that these corrections are not sufficient to make a reliable weight measurement of the changes in the hive weight. Among other things because the influence of temperature on the measurements differs per sensor and can change per sensor. There is also a time difference between when the temperature influences the measurements and these can also differ per sensor. Lastly, we suspect that the wood, to which the sensors are attached, could also influence some inexplicable measurement effects. All in all, many uncertainties added together, which now make the measurements accurate to +/- 200 grams (in a total weight range of 0-125 kg).

Why is reliable weight data important?

As mentioned, the temperature influences the weight measurements. How much this is, may vary. For example, when interpreting weight data, one may want to see the difference in weight gain or loss per day. This can vary from half to full kilograms, depending on the weather conditions. When the actual changes are subtle, e.g. when monitoring stock usage in winter and early spring, these changes easily cause errors in interpretation. The current V2 measuring system is accurate to approximately 200 grams (over a total range of 0-125 kg), but we want to achieve an accuracy of 50 grams in order to be able to clearly visualize small changes.

Other factors also play a role: rain and snowfall, moisture absorption in e.g. wooden hive parts, condensation in the hive or hive. The more variations, the more unreliable and the more chance of confusion for the user of the data. This may lead to incorrect decisions.

Click here to participate in the crowdfunding of the BEEP base v3.