Non-iid data and Continual Learning processes in Federated Learning: a long road ahead
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- Bu səhifədəki naviqasiya:
- Scenario B. Virtual drift.
- 7. Challenges and future directions
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Scenario A. Temporal baseline. The first scenario we examine
is the baseline. In this scenario, each client owns 1200 samples from each of the 5 domains, and they are shuffled so the domains are all mixed together. This situation is totally IID, since each client is going to perceive, in each training round, 800 samples that represent the 5 domains. As illustrated in 8(a) and 8(b) , in this scenario both FedAvg and CDA-FedAvg perform well, reaching an accuracy of 84% in both cases. They perform worse that in the Spatial baseline, Figs. 7(a) and 7(b) , because of the way they are processing the data and the limitation of 5000 data samples. Scenario B. Virtual drift. This other scenario presents virtual drifts in all of the clients simultaneously. Each of them has 1200 samples from each domain, but in this case they are not shuffled, i.e., the first 1200 samples are from the MNIST dataset, the next 1200 are from the SVHN dataset, and so on. The results in this case show that FedAvg is seriously affected by this kind of data heterogeneity (see Fig. 8(c) ), lowering its accuracy to 48%. On the other hand, CDA-FedAvg can handle this situation (see Fig. 8(d) ), achieving an accuracy of 79%. 7. Challenges and future directions Along this review, we have discussed the different possible causes of data heterogeneity, as well as the most common and remarkable strategies developed so far to face it. Some of those strategies are already designed and implemented in the FL framework, while some others seem promising, but at the moment are only conceived in centralized settings. At the same time, we have addressed the necessity of considering time-evolving methods for real-life federated problems. Some works are aware of this kind of issue, but nowadays this area of research is much less studied than the one regarding non-IID data. Concerning the non-IID data, there are some important existing problems. One of the biggest ones is that most of the strategies designed to tackle non-IID data do not specify what kind of non-IID data source they work with. See, for instance, works presented in Sections 3.2 and 3.3 . Hence, when trying to apply some method for a real-life problem, it is unclear to determine which ones are useful, or if some of them are more appropriate than others. Also, the fact that a lots of works claim to deal with non-IID data leads to the thinking that there are a lot of different techniques in the current literature to solve non-IID data problems, but the reality is that some kinds of heterogeneity are still barely studied. Nowadays, personalization strategies (Section 3.2 ) are gaining a lot of importance in FL. These methods are aware of the possibility of having clients that need their own outputs for their data. On the contrary, most of the current strategies in the literature assume that |