Development of the Grape Yield Analyser Continues to Progress

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Jan, 2021

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Figure 1: Grapevine plant in November with few visible inflorescences.

The MBIE-funded Grape Yield Analyser (GYA) research programme, now in its fifth year, is developing sensing technology and tools to support crop load management in grapevine production. The main focus for our work is developing sensor use for counting grape bunches and a Bayesian model for accurately predicting grape harvest yields early in the growing period.

One tool we are developing is a camera-based method for counting inflorescences, which are young grape bunches before their flowers turn into berries, to support early in-season yield assessment. In some New Zealand vineyards, counting inflorescences in November has replaced counting grape bunches at the pea-size berry stage in mid-January. Leaf density is still low in November (Figure 1) and allows us to quickly assess inflorescence numbers, which has shown to be a good proxy for grape bunches later in the season.

Our system can detect very small inflorescences (Figure 2) and is recording 93% accuracy in a calibrated model and 88% in a run not calibrated to the row when compared to manually counted grape bunch numbers.

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Figure 2: Detail of a vine with inflorescences identified by our machine learning tool (highlighted in several bright colours).
We are developing a second tool to support vineyard decision-making based on the developmental stage of the plant. Spraying inflorescences with sulphur to protect emerging grape bunches from botrytis infections needs to be timed accurately, for example, at the 60% flowering stage. We are able to assess the level of ‘flowering’ by calculating the percentage of open and uncapped flowers, or still closed. We begin by taking close-up digital images of inflorescences during flower maturation in December (Figure 3).

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Figure 3: Manually labelled (opened – red, closed - blue) inflorescence image.

The team uses hand labelled images to train a neural network (deep learning) to auto-segment the opened and closed flowers. Our system has been tested with images taken in three consecutive flowering seasons (2018, 2019, and 2020) and showed good accuracy in determining the number of closed flowers compared to open ones (Figure 4). The team is now comparing the machine-learning tool with the assessment of inflorescence growth stages by viticulturists. We are in the process of publishing the results of this study in a viticulture journal.

Figure 4a Training2    Figure 4b Training1

Figure 4: Images with both opened and closed flowers: (a) full inflorescence, (b) a partitioned frame (1024 x 1024 pixels) constructed from (a) for training.
The GYA programme is funded by MBIE with co-funding from the Bragato Research Institute (previously NZ Wine) and receives in-kind support from key stakeholders. The research is led by Lincoln Agritech and includes researchers from Lincoln University, University of Canterbury, Plant & Food Research and CSIRO (AU).

Development of the Grape Yield Analyser Continues to Progress