ActivityPub Viewer

A small tool to view real-world ActivityPub objects as JSON! Enter a URL or username from Mastodon or a similar service below, and we'll send a request with the right Accept header to the server to view the underlying object.
{
	"@context": [
		"https://www.w3.org/ns/activitystreams",
		{
			"ostatus": "http://ostatus.org#",
			"atomUri": "ostatus:atomUri",
			"inReplyToAtomUri": "ostatus:inReplyToAtomUri",
			"conversation": "ostatus:conversation",
			"sensitive": "as:sensitive",
			"toot": "http://joinmastodon.org/ns#",
			"votersCount": "toot:votersCount",
			"Hashtag": "as:Hashtag"
		}
	],
	"id": "https://aus.social/users/RossGayler/statuses/110875307609739202",
	"type": "Note",
	"summary": null,
	"inReplyTo": null,
	"published": "2023-08-12T06:48:51Z",
	"url": "https://aus.social/@RossGayler/110875307609739202",
	"attributedTo": "https://aus.social/users/RossGayler",
	"to": [
		"https://www.w3.org/ns/activitystreams#Public"
	],
	"cc": [
		"https://aus.social/users/RossGayler/followers",
		"https://mas.to/users/bnoheda"
	],
	"sensitive": false,
	"atomUri": "https://aus.social/users/RossGayler/statuses/110875307609739202",
	"inReplyToAtomUri": null,
	"conversation": "tag:aus.social,2023-08-12:objectId=79526714:objectType=Conversation",
	"content": "<p>Here&#39;s a really interesting (long) paper on what a theory of computing based on arbitrary physical substrates might look like: <a href=\"http://arxiv.org/abs/2307.15408\" target=\"_blank\" rel=\"nofollow noopener\" translate=\"no\"><span class=\"invisible\">http://</span><span class=\"\">arxiv.org/abs/2307.15408</span><span class=\"invisible\"></span></a></p><p>&quot;Toward a formal theory for computing machines made out of whatever physics offers: extended version&quot;</p><p>Herbert Jaeger, Beatriz Noheda, Wilfred G. van der Wiel (2023)</p><p><span class=\"h-card\" translate=\"no\"><a href=\"https://mas.to/@bnoheda\" class=\"u-url mention\">@<span>bnoheda</span></a></span> </p><p><a href=\"https://aus.social/tags/NewPaper\" class=\"mention hashtag\" rel=\"tag\">#<span>NewPaper</span></a> <a href=\"https://aus.social/tags/TheoreticalComputerScience\" class=\"mention hashtag\" rel=\"tag\">#<span>TheoreticalComputerScience</span></a> <a href=\"https://aus.social/tags/neuromorphic\" class=\"mention hashtag\" rel=\"tag\">#<span>neuromorphic</span></a> <a href=\"https://aus.social/tags/CogSci\" class=\"mention hashtag\" rel=\"tag\">#<span>CogSci</span></a> <a href=\"https://aus.social/tags/CognitiveScience\" class=\"mention hashtag\" rel=\"tag\">#<span>CognitiveScience</span></a> <a href=\"https://aus.social/tags/VSA\" class=\"mention hashtag\" rel=\"tag\">#<span>VSA</span></a> <a href=\"https://aus.social/tags/VectorSymbolicArchitecture\" class=\"mention hashtag\" rel=\"tag\">#<span>VectorSymbolicArchitecture</span></a> <a href=\"https://aus.social/tags/HDC\" class=\"mention hashtag\" rel=\"tag\">#<span>HDC</span></a> <a href=\"https://aus.social/tags/HyperdimensionalComputing\" class=\"mention hashtag\" rel=\"tag\">#<span>HyperdimensionalComputing</span></a> <a href=\"https://aus.social/tags/AnalogComputing\" class=\"mention hashtag\" rel=\"tag\">#<span>AnalogComputing</span></a></p>",
	"contentMap": {
		"en": "<p>Here&#39;s a really interesting (long) paper on what a theory of computing based on arbitrary physical substrates might look like: <a href=\"http://arxiv.org/abs/2307.15408\" target=\"_blank\" rel=\"nofollow noopener\" translate=\"no\"><span class=\"invisible\">http://</span><span class=\"\">arxiv.org/abs/2307.15408</span><span class=\"invisible\"></span></a></p><p>&quot;Toward a formal theory for computing machines made out of whatever physics offers: extended version&quot;</p><p>Herbert Jaeger, Beatriz Noheda, Wilfred G. van der Wiel (2023)</p><p><span class=\"h-card\" translate=\"no\"><a href=\"https://mas.to/@bnoheda\" class=\"u-url mention\">@<span>bnoheda</span></a></span> </p><p><a href=\"https://aus.social/tags/NewPaper\" class=\"mention hashtag\" rel=\"tag\">#<span>NewPaper</span></a> <a href=\"https://aus.social/tags/TheoreticalComputerScience\" class=\"mention hashtag\" rel=\"tag\">#<span>TheoreticalComputerScience</span></a> <a href=\"https://aus.social/tags/neuromorphic\" class=\"mention hashtag\" rel=\"tag\">#<span>neuromorphic</span></a> <a href=\"https://aus.social/tags/CogSci\" class=\"mention hashtag\" rel=\"tag\">#<span>CogSci</span></a> <a href=\"https://aus.social/tags/CognitiveScience\" class=\"mention hashtag\" rel=\"tag\">#<span>CognitiveScience</span></a> <a href=\"https://aus.social/tags/VSA\" class=\"mention hashtag\" rel=\"tag\">#<span>VSA</span></a> <a href=\"https://aus.social/tags/VectorSymbolicArchitecture\" class=\"mention hashtag\" rel=\"tag\">#<span>VectorSymbolicArchitecture</span></a> <a href=\"https://aus.social/tags/HDC\" class=\"mention hashtag\" rel=\"tag\">#<span>HDC</span></a> <a href=\"https://aus.social/tags/HyperdimensionalComputing\" class=\"mention hashtag\" rel=\"tag\">#<span>HyperdimensionalComputing</span></a> <a href=\"https://aus.social/tags/AnalogComputing\" class=\"mention hashtag\" rel=\"tag\">#<span>AnalogComputing</span></a></p>"
	},
	"updated": "2023-08-12T06:56:00Z",
	"attachment": [],
	"tag": [
		{
			"type": "Mention",
			"href": "https://mas.to/users/bnoheda",
			"name": "@bnoheda@mas.to"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/newpaper",
			"name": "#newpaper"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/theoreticalcomputerscience",
			"name": "#theoreticalcomputerscience"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/neuromorphic",
			"name": "#neuromorphic"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/cogsci",
			"name": "#cogsci"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/cognitivescience",
			"name": "#cognitivescience"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/vsa",
			"name": "#vsa"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/vectorsymbolicarchitecture",
			"name": "#vectorsymbolicarchitecture"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/HDC",
			"name": "#HDC"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/hyperdimensionalcomputing",
			"name": "#hyperdimensionalcomputing"
		},
		{
			"type": "Hashtag",
			"href": "https://aus.social/tags/analogcomputing",
			"name": "#analogcomputing"
		}
	],
	"replies": {
		"id": "https://aus.social/users/RossGayler/statuses/110875307609739202/replies",
		"type": "Collection",
		"first": {
			"type": "CollectionPage",
			"next": "https://aus.social/users/RossGayler/statuses/110875307609739202/replies?only_other_accounts=true&page=true",
			"partOf": "https://aus.social/users/RossGayler/statuses/110875307609739202/replies",
			"items": []
		}
	},
	"likes": {
		"id": "https://aus.social/users/RossGayler/statuses/110875307609739202/likes",
		"type": "Collection",
		"totalItems": 6
	},
	"shares": {
		"id": "https://aus.social/users/RossGayler/statuses/110875307609739202/shares",
		"type": "Collection",
		"totalItems": 8
	}
}