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However, traditional coding models have focused on homogeneous populations of excitatory and inhibitory neurons. Here, we analytically derive a class of recurrent networks of spiking neurons that close to optimally track a continuously varying input online, based on two assumptions: 1) every spike is decoded linearly and 2) the network aims to reduce the mean-squared error between the input and the estimate. From this we derive a class of predictive coding networks, that unifies encoding and decoding and in which we can investigate the difference between homogeneous networks and heterogeneous networks, in which each neurons represents different features and has different spike-generating properties. We find that in this framework, \u2018type 1\u2019 and \u2018type 2\u2019 neurons arise naturally and networks consisting of a heterogeneous population of different neuron types are both more efficient and more robust against correlated noise. We make two experimental predictions: 1) we predict that integrators show strong correlations with other integrators and resonators are correlated with resonators, whereas the correlations are much weaker between neurons with different coding properties and 2) that \u2018type 2\u2019 neurons are more coherent with the overall network activity than \u2018type 1\u2019 neurons.<\/jats:p>","DOI":"10.1371\/journal.pcbi.1008673","type":"journal-article","created":{"date-parts":[[2021,4,30]],"date-time":"2021-04-30T13:46:19Z","timestamp":1619790379000},"page":"e1008673","update-policy":"https:\/\/doi.org\/10.1371\/journal.pcbi.corrections_policy","source":"Crossref","is-referenced-by-count":53,"title":["Efficient and robust coding in heterogeneous recurrent 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