DPP

E131503

DPP (Device Provisioning Protocol) is a Wi‑Fi Alliance standard that simplifies and secures the process of adding new devices to a Wi‑Fi network without requiring traditional passwords.

All labels observed (1)

Label Occurrences
DPP canonical 1

How this entity was disambiguated

Statements (49)

Predicate Object
instanceOf Wi‑Fi Alliance standard
Wi‑Fi provisioning protocol
abbreviationFor Device Provisioning Protocol
advantageOverPasswords no need to share Wi‑Fi passphrase
resistance to credential guessing attacks
alsoKnownAs Wi‑Fi CERTIFIED Easy Connect
surface form: Wi‑Fi Easy Connect
bootstrappingMethod NFC tag
QR code scan
pre‑configured public key
componentOf Wi‑Fi Easy Connect certification program
definesRole configurator
enrollee
network
domain Wi‑Fi networking
wireless security
feature mutual authentication between device and configurator
network credential provisioning
protection against offline dictionary attacks
role separation between configurator and enrollee
support for both personal and enterprise Wi‑Fi networks
support for headless IoT devices
support for multiple configurators
fullName Device Provisioning Protocol
improvesUpon Wi‑Fi Protected Setup security
Wi‑Fi onboarding usability
introducedBy Wi‑Fi CERTIFIED Easy Connect
surface form: Wi‑Fi Alliance Wi‑Fi Easy Connect program
primaryPurpose securely add new devices to Wi‑Fi networks
simplify Wi‑Fi device onboarding
relatedStandard IEEE 802.11
Wi‑Fi CERTIFIED WPA3
surface form: WPA3
replaces Wi‑Fi Protected Setup
securityGoal confidentiality of network credentials
device authentication
integrity of provisioning messages
standardizedBy Wi‑Fi Alliance
supports bootstrapping of Wi‑Fi devices
out‑of‑band device provisioning
passwordless device onboarding
public key–based authentication
typicalUseCase onboarding enterprise client devices
onboarding smart home devices
usedIn IoT devices
consumer Wi‑Fi devices
enterprise Wi‑Fi deployments
uses Bluetooth bootstrapping
NFC bootstrapping
QR code bootstrapping
elliptic curve cryptography
public key cryptography

How these facts were elicited

Referenced by (1)

Full triples — surface form annotated when it differs from this entity's canonical label.